I am a bit confused. My understanding previously was that a modulemap was required in order to have a bridging header be generated. Now it has come to my attention that a modulemap is both a build input and something you can put in the Modules folder of the built product if you so choose. I have tried reading the clang modulemap documentation, but am really struggling to connect most of what it says to the problem at hand. In a project I am working on, the generation of the modulemap file is quite problematic. The framework imports C++ libraries and itself writes Objective-C++ wrappers for them. Currently, the modulemap file is both set as the Module Map File in "Build Settings" and presumably used when the Swift project later imports it. In this project the modulemap is a list of the objective-c++ header files then export * I am trying to understand what I would lose if I do one or both of two things: What happens if I dont set this module map file in the build settings for the objective-c++ framework? What happens if I dont have a modulemap involved whatsoever in this objective-c++ framework and then it is imported into Swift? And does any of this change if its compiled as a static vs dynamic library? What if I embed it vs not embed it? Because the build in the real project is so complicated its hard to isolate what is going on. So I built a smaller sample app. There is CFramework which has an objective-c++ class. There is SwiftProject which imports that framework and is purely Swift. It imports the module and uses it. I did not write a modulemap file, and the Swift project builds just fine. In the timeline it: Prepares packages Computes target dependency graph Builds static cache for iPhoneSimulator18.2sdk As near as I can tell even though the objective-c++ framework is not built with a modulemap in its build settings and there is not a modulemap included in the framework everything works. So then the modulemap file is useless? Perhaps it speeds things up but what step would theoretically be skippable?

I've got several Xcode iOS projects and in the Editor menu section there are dozen's of options, as in the diagram. However if I create a new iOX Project (with Xcode 16.2) look at how sparse the Editor menu is. Why is that, why do they appear for other projects but not for a new one and why are the contents different?

In Xcode's StoreKit transaction manager (Debug > StoreKit > Manage Transactions), how can I delete old apps that I do not need anymore from the list of apps?

Is there some official documentation about the SYSTEM_VERSION_COMPAT environment variable and how it affects the version reported by tools like sw_vers and whether the presence of that environment variable affects APIs like NSOperatingSystemVersion? I ask this in context of recent macOS 26 Beta version where NSOperatingSystemVersion from older versions of XCode (for example XCode 15.4) report the macOS version as 16.0.

PLATFORM AND VERSION Development environment: Xcode 16.4 (16F6), macOS 15.5 (24F74) Run-time configuration: iOS 18.3.1 DESCRIPTION OF PROBLEM I cannot build my app due to a module not found error when I'm importing Sample-Swift.h header to an ObjectiveC file. I need to use Swift code to ObjectiveC file with Swift code using an external XCFramework. It seems to be related to a mix with ObjectiveC and Swift code when Swift code uses class inheritance from FZWorkoutKit class. With a full Swift project, no issue. STEPS TO REPRODUCE Project https://fizzup.s3.amazonaws.com/files/public/Sample-WK.zip Open the provided project and try to build it. The issue occurs. In MyObject.m file, if you comment the first import (Sample-Swift.h), no issue occurs but I cannot use my Swift code (MyFile class). Uncomment the line commented in step 1. Go to MyFile.swift and change class inheritance from GoModeController (from FZWorkoutKit framework) to UIView (from UIKit). No issue occurs.

If I create an Xcode (version doesn't matter, 16.N )project of type framework then install some dependencies using SPM. Then within the Frameworks and Libraries section, the Embed part is empty. This doesn't happen if the project type is app rather than framework. If I want to set this to embed or not embed then how can this be done if its not even visible, for that matter how can I tell what it is set to even?

When installing Xcode on macOS Tahoe, Predictive Code Completion Model cannot install. The operation couldn’t be completed. (ModelCatalog.CatalogErrors.AssetErrors error 1.) The operation couldn’t be completed. (ModelCatalog.CatalogErrors.AssetErrors error 1.) Domain: ModelCatalog.CatalogErrors.AssetErrors Code: 1 User Info: { DVTErrorCreationDateKey = "2025-06-16 04:54:14 +0000"; } Failed to find asset: com.apple.gm.safety_deny.input.code_intelligence.base.generic - no asset Domain: ModelCatalog.CatalogErrors.AssetErrors Code: 1 System Information macOS Version 16.0 (Build 25A5279m) Xcode 16.4 (23792) (Build 16F6) Timestamp: 2025-06-16T00:54:14-04:00

I often get questions about third-party crash reporting. These usually show up in one of two contexts: Folks are trying to implement their own crash reporter. Folks have implemented their own crash reporter and are trying to debug a problem based on the report it generated. This is a complex issue and this post is my attempt to untangle some of that complexity. If you have a follow-up question about anything I've raised here, please put it in a new thread with the Debugging tag. IMPORTANT All of the following is my own direct experience. None of it should be considered official DTS policy. If you have a specific question that needs a direct answer — perhaps you’re trying to convince your boss that implementing your own crash reporter is a very bad idea — start a dedicated thread here on the forums and we can discuss the details there. Use whatever subtopic is appropriate for your issue, but make sure to add the Debugging tag so that I see it go by. Share and Enjoy — Quinn “The Eskimo!” @ Developer Technical Support @ Apple let myEmail = "eskimo" + "1" + "@" + "apple.com" Scope First, I can only speak to the technical side of this issue. There are other aspects that are beyond my remit: I don’t work for App Review, and only they can give definitive answers about what will or won’t be allowed on the store. Implementing your own crash reporter has significant privacy implications. IMPORTANT If you implement your own crash reporter, discuss the privacy impact with a lawyer. This post assumes that you are implementing your own crash reporter. A lot of folks use a crash reporter from another third party. From my perspective these are the same thing. If you use a custom crash reporter, you are responsible for its behaviour, both good and bad, regardless of where the actual code came from. Note If you use a crash reporter from another third party, run the tests outlined in Preserve the Apple Crash Report to verify that it’s working well. General Advice I strongly advise against implementing your own crash reporter. It’s very easy to create a basic crash reporter that works well enough to debug simple problems. It’s impossible to implement a good crash reporter, one that’s reliable, binary compatible, and sufficient to debug complex problems. The bulk of this post is a low-level explanation of that impossibility. Rather than attempting the impossible, I recommend that you lean in to Apple’s crash reporter. In recent years it’s acquired some really cool new features: If you’re creating an App Store app, the Xcode organiser gives you easy, interactive access to Apple crash reports. If you’re an enterprise developer, consider switching to Custom App Distribution. This yields all the benefits of App Store distribution without your app being generally available on the store. iOS 14 and macOS 12 report crashes in MetricKit. This is a very cool feature, and I’m surprised by how few people use it effectively. If you previously dismissed Apple crash reports as insufficient, I encourage you to reconsider that decision. Why Is This Impossible? Earlier I said “It’s impossible to implement a good crash reporter”, and I want to explain why I’m confident enough in my conclusions to use that specific word. There are two fundamental problems here: On iOS (and the other iOS-based platforms, watchOS and tvOS) your crash reporter must run inside the crashed process. That means it can never be 100% reliable. If the process is crashing then, by definition, it’s in an undefined state. Attempting to do real work in that state is just asking for problems [1]. To get good results your crash reporter must be intimately tied to system implementation details. These can change from release to release, which invalidates the assumptions made by your crash reporter. This isn’t a problem for the Apple crash reporter because it ships with the system. However, a crash reporter that’s built in to your product is always going to be brittle. I’m speaking from hard-won experience here. I worked for DTS during the PowerPC-to-Intel transition, and saw a lot of folks with custom crash reporters struggle through that process. Still, this post exists because lots of folks ignore this reality, so the subsequent sections contain advice about specific technical issues. WARNING Do not interpret any of the following as encouragement to implement your own crash reporter. I strongly advise against that. However, if you ignore my advice then you should at least try to minimise the risk, which is what the rest of this document is about. [1] On macOS it’s possible for your crash reporter to run out of process, just like the Apple crash reporter. However, possible is not the same as easy. In fact, running out of process can make things worse: It prevents you from geting critical state for the crashed process without being tightly bound to OS implementation details. It would be nice if Apple provided APIs for this sort of thing, but that’s currently not the case. Preserve the Apple Crash Report You must ensure that your crash reporter doesn’t disrupt the Apple crash reporter. This is important for three reasons: Some fraction of your crashes will not be caused by your code but by problems in framework code, and accurate Apple crash reports are critical in diagnosing such issues. When dealing with really hard-to-debug problems, you need the more obscure info that’s shown in the Apple crash report. If you’re working with someone from Apple (here on the forums, via a bug report, or a DTS case, or whatever), they’re going to want an accurate Apple crash report. If your crash reporter is disrupting the Apple crash reporter — either preventing it from generating crash reports entirely [1], or distorting those crash reports — that limits how much they can help you. IMPORTANT This is not a theoretical concern. The forums have many threads where I’ve been unable to help folks debug a gnarly problem because their third-party crash reporter didn’t preserve the Apple crash report (see here, here, and here for some examples). To avoid these issues I recommend that you test your crash reporter’s impact on the Apple crash reporter. The basic idea is: Create a program that generates a set of specific crashes. Run through each crash. Verify that your crash reporter produces sensible results. Verify that the Apple crash reporter produces the same results as it does without your crash reporter With regards step 1, your test suite should include: An un-handled language exception thrown by your code An un-handled language exception thrown by the OS (accessing an NSArray out of bounds is an easy way to get this) Various machine exceptions (at a minimum, memory access, illegal instruction, and breakpoint exceptions) Stack overflow Make sure to test all of these cases on both the main thread and a secondary thread. With regards step 4, check that the resulting Apple crash report includes correct values for: The exception info The crashed thread That thread’s state Any application-specific info, and especially the last exception backtrace [1] A particularly pathological behaviour here is to end your crash reporter by calling exit. This completely suppresses the Apple crash report. Some third-party language runtimes ‘helpfully’ include such a crash reporter, which makes it very hard to debug problems that occur within your process but outside of that language. Signals Many third-party crash reporters use UNIX signals to catch the crash. This is a shame because using Mach exception handling, the mechanism used by the Apple crash reporter, is generally a better option. However, there are two reasons to favour UNIX signals over Mach exception handling: On iOS-based platforms your crash reporter must run in-process, and doing in-process Mach exception handling is not feasible. Folks are a lot more familiar with UNIX signals. Mach exception handling, and Mach messaging in general, is pretty darned obscure. If you use UNIX signals for your crash reporter, be aware that this API has some gaping pitfalls. First and foremost, your signal handler can only use async signal safe functions [1]. You can find a list of these functions in sigaction man page [2] [3]. WARNING This list does not include malloc. This means that a crash reporter’s signal handler cannot use Objective-C or Swift, as there’s no way to constrain how those language runtimes allocate memory [4]. That means you’re stuck with C or C++, but even there you have to be careful to comply with this constraint. The Operative: It’s worse than you know. Captain Malcolm Reynolds: It usually is. Many crash reports use functions like backtrace (see its man page) to get a backtrace from their signal handler. There’s two problems with this: backtrace is not an async signal safe function. backtrace uses a naïve algorithm that doesn’t deal well with cross signal handler stack frames [5]. The latter point is particularly worrying, because it hides the identity of the stack frame that triggered the signal. If you’re going to backtrace out of a signal, you must use the crashed thread’s state (accessible via the handlers uap parameter) to start your backtrace. Apropos that, if your crash reporter wants to log the state of the crashed thread, that’s the place to get it. Your signal handler must be prepared to be called by multiple threads. A typical crashing signal (like SIGSEGV) is delivered to the thread that triggered the machine exception. While your signal handler is running on that thread, other threads in your process continue to run. One of these threads could crash, causing it to call your signal handler. It’s a good idea to suspend all threads in your process early in your signal handler. However, there’s no way to completely eliminate this window. Note The need to suspend all the other threads in your process is further evidence that sticking to async signal safe functions is required. An unsafe function might depend on a thread you’ve suspended. A typical crashing signal is delivered on the thread that triggered the machine exception. If the machine exception was caused by a stack overflow, the system won’t have enough stack space to call your signal handler. You can tell the system to switch to an alternative stack (see the discussion of SA_ONSTACK in the sigaction man page) but that isn’t a complete solution (because of the thread issue discussed immediately above). Finally, there’s the question of how to exit from your signal handler. You must not call exit. There’s two problems with doing that: exit is not async signal safe. In fact, exit can run arbitrary code via handlers registered with atexit. If you want to exit the process, call _exit. Exiting the process is a bad idea anyway, because it will prevent the Apple crash reporter from running. This is very poor form. For an explanation as to why, see Preserve the Apple Crash Report (above). A better solution is to unregister your signal handler (set it to SIG_DFL) and then return. This will cause the crashed process to continue execution, crash again, and generate a crash report via the Apple crash reporter. [1] While the common signals caught by a crash reporter are not technically async signals (except SIGABRT), you still have to treat them as async signals because they can occur on any thread at any time. [2] It’s reasonable to extend this list to other routines that are implemented as thin shims on a system call. For example, I have no qualms about calling vm_read (see below) from a signal handler. [3] Be aware, however, that even this list has caveats. See my Async Signal Safe Functions vs Dyld Lazy Binding post for details. [4] I expect that it’ll eventually be possible to write signal handlers in Swift, possibly using some facility that evolves from the the existing, but unsupported, @_noAllocation and @_noLocks attributes. If you’d like to get involved with that effort, I recommend that engage with the Swift Evolution process. [5] Cross signal handler stack frames are pushed on to the stack by the kernel when it runs a signal handler on a thread. As there’s no API to learn about the structure of these frames, there’s no way to backtrace across one of these frames in isolation. I’m happy to go into details but it’s really not relevant to this discussion [6]. If you’re interested, start a new thread with the Debugging tag and we can chat there. [6] (Arg, my footnotes have footnotes!) The exception to this is where your trying to generate a crash report for code running in a signal handler. That’s not easy, and frankly you’re better off avoiding signal handlers in general. Where possible, handle signals via a Dispatch event source. Reading Memory A signal handler must be very careful about the memory it touches, because the contents of that memory might have been corrupted by the crash that triggered the signal. My general rule here is that the signal handler can safely access: Its code Its stack (subject to the constraints discussed earlier) Its arguments Immutable global state In the last point, I’m using immutable to mean immutable after startup. It’s reasonable to set up some global state when the process starts, before installing your signal handler, and then rely on it in your signal handler. Changing any global state after the signal handler is installed is dangerous, and if you need to do that you must be careful to ensure that your signal handler sees consistent state, even though a crash might occur halfway through your change. You can’t protect this global state with a mutex because mutexes are not async signal safe (and even if they were you’d deadlock if the mutex was held by the thread that crashed). You should be able to use atomic operations for this, but atomic operations are notoriously hard to use correctly (if I had a dollar for every time I’ve pointed out to a developer they’re using atomic operations incorrectly, I’d be very badly paid (-: but that’s still a lot of developers!). If your signal handler reads other memory, it must take care to avoid crashing while doing that read. There’s no BSD-level API for this [1], so I recommend that you use vm_read. [1] The traditional UNIX approach for doing this is to install a signal handler to catch any memory access exceptions triggered by the read, but now we’re talking signal handling within a signal handler and that’s just silly. Writing Files If your want to write a crash report from your signal handler, you must use low-level UNIX APIs (open, write, close) because only those low-level APIs are documented to be async signal safe. You must also set up the path in advance because the standard APIs for determining where to write the file (NSFileManager, for example) are not async signal safe. Offline Symbolication Do not attempt to do symbolication from your signal handler. Rather, write enough information to your crash report to support offline symbolication. Specifically: The addresses to symbolicate For each Mach-O image in the process: The image’s path The image’s build UUID [1] The image’s load address You can get most of the Mach-O image information using the APIs in <mach-o/dyld.h> [2]. Be aware, however, that these APIs are not async signal safe. You’ll need to get this information in advance and cache it for your signal handler to record. This is complicated by the fact that the list of Mach-O images can change as you process loads and unloads code. This requires you to share mutable state with your signal handler, which is exactly what I recommend against in Reading Memory. Note You can learn about images loading and unloading using _dyld_register_func_for_add_image and _dyld_register_func_for_remove_image respectively. [1] If you’re unfamiliar with that term, see TN3178 Checking for and resolving build UUID problems and the documents it links to. [2] I believe you’ll need to parse the Mach-O load commands to get the build UUID. What to Include When deciding what to include in a crash report, there’s a three-way balance to be struck: The more information you include, the easier it is to diagnose problems. Some information is hard to obtain, either because there’s no public API to get that information, or because the API is not available to your crash reporter. Some information is so privacy-sensitive that it has no place in a crash report. Apple’s crash reporter strikes its own balance here, and I recommend that you try to include everything that it includes, subject to the limitations described in the second point. Here’s what I’d considered to be a minimal list: Information about the machine exception that triggered the crash For memory access exceptions, the address of the access that triggered the crash Backtraces of all the threads (sometimes the backtrace of a non-crashing thread can yield critical information about the crash) The crashed thread Its thread state A list of Mach-O images, as discussed in the Offline Symbolication section IMPORTANT Make sure you report the thread backtraces in a consistent order. Without that it’s hard to correlate information across crash reports. Revision History 2025-08-25 Added some links to examples of third-party crash reports not preserving the Apple crash report. Added a link to TN3178. Made other minor editorial changes. 2022-05-16 Fixed a broken link. 2021-09-10 Expanded the General Advice section to include pointers to Apple crash report resources, including MetricKit. Split the second half of that section out in to a new Why Is This Impossible? section. Made minor editoral changes. 2021-02-27 Fixed the formatting. Made minor editoral changes. 2019-05-13 Added a reference to my Async Signal Safe Functions vs Dyld Lazy Binding post. 2019-02-15 Expanded the introduction to the Preserve the Apple Crash Report section. 2019-02-14 Clarified the complexities of an out-of-process crash reporter. Added the What to Include section. Enhanced the Signals section to cover reentrancy and stack overflow. Made minor editoral changes. 2019-02-13 Made minor editoral changes. Added a new footnote to the Signals section. 2019-02-12 First posted.

Maybe it's just me but I can't find the attribute inspector anywhere. I have clicked, searched and tried everything I can think of. I love the new Xcode, but this has me dumbfounded.

Xcode16.2+iOS18以上的系统，加载图片http类型的url时，会自动升级为https，下面是Safari自动打印的日志：This content was automatically upgraded and should be served over HTTPS.有什么解决方案吗？

My app uses the top navigation panel which contains the back button, a title, and prompt. On an actual device, the navigation area is light and shows all three items. On the simulator, the navigation area is black and only the back button is shown. I need this to be correct for app store screen shots.

SWIFTUI LAYERING ISSUE: BACKGROUND ALWAYS APPEARS IN FRONT OF CONTENT THE PROBLEM I'm facing a frustrating issue in my SwiftUI macOS app where a background RoundedRectangle is consistently displaying in front of my content instead of behind it. This isn't an intermittent issue - it never works correctly. The colored background is always rendering on top of the text and icons, making the content completely unreadable. Here's my current implementation: private func sceneRow(for scene: Scene, index: Int) -> some View { ZStack(alignment: .leading) { // Hidden text to force view updates when state changes Text("$$noteStateTracker)") .frame(width: 0, height: 0) .opacity(0) // 1. Background rectangle explicitly at the bottom layer RoundedRectangle(cornerRadius: 6) .fill(sceneBackgroundColor(for: scene)) .padding(.horizontal, 4) // 2. Content explicitly on top HStack { Image(systemName: "line.3.horizontal") .foregroundColor(.blue) .frame(width: 20) Text("$$index). $$truncateTitle(scene.title.isEmpty ? "Untitled Scene" : scene.title))") .foregroundColor(selectedScene?.id == scene.id ? .blue : .primary) .fontWeight(selectedScene?.id == scene.id ? .bold : .regular) Spacer() if scene.isComplete { Image(systemName: "checkmark.circle.fill") .foregroundColor(.green) .font(.system(size: 12)) .padding(.trailing, 8) } } .padding(.vertical, 4) .padding(.leading, 30) } .contentShape(Rectangle()) .onTapGesture { selectedChapter = chapter selectedScene = scene } .onDrag { NSItemProvider(object: "$$scene.id.uuidString)|scene" as NSString) } .onDrop(of: ["public.text"], isTargeted: Binding( get: { hoveredSceneID == scene.id }, set: { isTargeted in hoveredSceneID = isTargeted ? scene.id : nil } )) { providers in handleSceneDrop(providers, scene, chapter) } .contextMenu { Button("Rename Scene") { sceneToRename = scene newSceneTitleForRename = scene.title newSceneDescriptionForRename = scene.description isRenamingScene = true } Button(role: .destructive) { confirmDeleteScene(scene, chapter) } label: { Label("Delete Scene", systemImage: "trash") } } } Despite explicitly ordering elements in the ZStack with the background first (which should place it at the bottom of the stack), the RoundedRectangle always renders on top of the text and icons. WHAT I'VE TRIED I've attempted multiple approaches but nothing works: ZStack with explicit zIndex values ZStack { RoundedRectangle(cornerRadius: 6) .fill(sceneBackgroundColor(for: scene)) .padding(.horizontal, 4) .zIndex(1) HStack { /* content */ } .padding(.vertical, 4) .padding(.leading, 30) .zIndex(2) } No effect - background still appears on top. Using .background() modifier instead of ZStack HStack { /* content */ } .padding(.vertical, 4) .padding(.leading, 30) .background( RoundedRectangle(cornerRadius: 6) .fill(sceneBackgroundColor(for: scene)) .padding(.horizontal, 4) ) Same issue - the background still renders in front of the content. Custom container view with GeometryReader struct SceneRowContainer: View { var background: Background var content: Content init(@ViewBuilder background: @escaping () -> Background, @ViewBuilder content: @escaping () -> Content) { self.background = background() self.content = content() } var body: some View { GeometryReader { geometry in // Background rendered first background .frame(width: geometry.size.width, height: geometry.size.height) .position(x: geometry.size.width/2, y: geometry.size.height/2) // Content rendered second content .frame(width: geometry.size.width, height: geometry.size.height) .position(x: geometry.size.width/2, y: geometry.size.height/2) } } } This changed the sizing of the components but didn't fix the layering issue. NSViewRepresentable approach I tried implementing a custom NSViewRepresentable that manually manages the view hierarchy: struct LayerOrderView: NSViewRepresentable { let background: () -> Background let content: () -> Content func makeNSView(context: Context) -> NSView { let containerView = NSView() // Add background hosting view first (should be behind) let backgroundView = NSHostingView(rootView: background()) containerView.addSubview(backgroundView) // Add content hosting view second (should be in front) let contentView = NSHostingView(rootView: content()) containerView.addSubview(contentView) // Setup constraints... return containerView } func updateNSView(_ nsView: NSView, context: Context) { // Update views... } } Even this direct AppKit approach didn't work correctly. Using .drawingGroup() ZStack { // Background RoundedRectangle(cornerRadius: 6) .fill(sceneBackgroundColor(for: scene)) .padding(.horizontal, 4) // Content HStack { /* content */ } .padding(.vertical, 4) .padding(.leading, 30) } .drawingGroup(opaque: false) Still no success - the background remains in front. PROJECT CONTEXT macOS app using SwiftUI Scene contents need to be displayed on top of colored backgrounds The view uses state tracking with a noteStateTracker UUID that updates when certain changes occur App needs to maintain gesture recognition for taps, drag and drop, and context menus The issue is completely reproducible 100% of the time - the background is always in front WHAT I WANT TO ACHIEVE I need a reliable solution to ensure that the background color (RoundedRectangle) renders behind the HStack content. The current behavior makes the text content completely unreadable since it's hidden behind the colored background. Has anyone found a workable solution for this seemingly basic layering problem in SwiftUI on macOS? Thank you for any help, Benjamin

When watching videos about Xcode, the AI coding feature is demonstrated using Swift. Since our company started development early with an Objective-C codebase, I want to know whether the Intelligence feature mentioned in the new feature video supports Objective-C

I built an app in Python with Kivy and I'm trying to bring it over to iOS. I made an Xcode project out of it that builds successfully, but it fails to install in the simulator or onto a device. There's an error about symlink, but I'm not sure how to fix it. Any advice would be appreciated. Domain: IXUserPresentableErrorDomain Code: 1 Failure Reason: Please try again later. Recovery Suggestion: invalid symlink at /Users/seanaldous/Library/Developer/CoreSimulator/Devices/96414FA1-78EF-4B59-979C-EAFB318C9653/data/Library/Caches/com.apple.mobile.installd.staging/temp.509ha0/extracted/sert.app/YourApp/.venv/bin/python3 User Info: { DVTErrorCreationDateKey = "2025-04-08 15:09:36 +0000"; IDERunOperationFailingWorker = IDELaunchiPhoneSimulatorLauncher; SimCallingSelector = "installApplication:withOptions:error:"; } -- Unable to Install “sert” Domain: IXUserPresentableErrorDomain Code: 1 Failure Reason: Please try again later. Recovery Suggestion: invalid symlink at /Users/seanaldous/Library/Developer/CoreSimulator/Devices/96414FA1-78EF-4B59-979C-EAFB318C9653/data/Library/Caches/com.apple.mobile.installd.staging/temp.509ha0/extracted/sert.app/YourApp/.venv/bin/python3 -- invalid symlink at /Users/seanaldous/Library/Developer/CoreSimulator/Devices/96414FA1-78EF-4B59-979C-EAFB318C9653/data/Library/Caches/com.apple.mobile.installd.staging/temp.509ha0/extracted/sert.app/YourApp/.venv/bin/python3 Domain: MIInstallerErrorDomain Code: 70 User Info: { FunctionName = "-[MIFileManager validateSymlinksInURLDoNotEscapeURL:error:]_block_invoke"; LegacyErrorString = InvalidSymlink; SourceFileLine = 1161; } -- Event Metadata: com.apple.dt.IDERunOperationWorkerFinished : { "device_identifier" = "96414FA1-78EF-4B59-979C-EAFB318C9653"; "device_model" = "iPhone17,3"; "device_osBuild" = "18.3.1 (22D8075)"; "device_platform" = "com.apple.platform.iphonesimulator"; "device_thinningType" = "iPhone17,3"; "dvt_coredevice_version" = "397.28"; "dvt_coresimulator_version" = "993.7"; "dvt_mobiledevice_version" = "1759.81.1"; "launchSession_schemeCommand" = Run; "launchSession_state" = 1; "launchSession_targetArch" = "x86_64"; "operation_duration_ms" = 32680; "operation_errorCode" = 1; "operation_errorDomain" = IXUserPresentableErrorDomain; "operation_errorWorker" = IDELaunchiPhoneSimulatorLauncher; "operation_name" = IDERunOperationWorkerGroup; "param_debugger_attachToExtensions" = 0; "param_debugger_attachToXPC" = 1; "param_debugger_type" = 3; "param_destination_isProxy" = 0; "param_destination_platform" = "com.apple.platform.iphonesimulator"; "param_diag_113575882_enable" = 0; "param_diag_MainThreadChecker_stopOnIssue" = 0; "param_diag_MallocStackLogging_enableDuringAttach" = 0; "param_diag_MallocStackLogging_enableForXPC" = 1; "param_diag_allowLocationSimulation" = 1; "param_diag_checker_tpc_enable" = 1; "param_diag_gpu_frameCapture_enable" = 0; "param_diag_gpu_shaderValidation_enable" = 0; "param_diag_gpu_validation_enable" = 0; "param_diag_guardMalloc_enable" = 0; "param_diag_memoryGraphOnResourceException" = 0; "param_diag_mtc_enable" = 1; "param_diag_queueDebugging_enable" = 1; "param_diag_runtimeProfile_generate" = 0; "param_diag_sanitizer_asan_enable" = 0; "param_diag_sanitizer_tsan_enable" = 0; "param_diag_sanitizer_tsan_stopOnIssue" = 0; "param_diag_sanitizer_ubsan_enable" = 0; "param_diag_sanitizer_ubsan_stopOnIssue" = 0; "param_diag_showNonLocalizedStrings" = 0; "param_diag_viewDebugging_enabled" = 1; "param_diag_viewDebugging_insertDylibOnLaunch" = 1; "param_install_style" = 2; "param_launcher_UID" = 2; "param_launcher_allowDeviceSensorReplayData" = 0; "param_launcher_kind" = 0; "param_launcher_style" = 0; "param_launcher_substyle" = 0; "param_runnable_appExtensionHostRunMode" = 0; "param_runnable_productType" = "com.apple.product-type.application"; "param_structuredConsoleMode" = 1; "param_testing_launchedForTesting" = 0; "param_testing_suppressSimulatorApp" = 0; "param_testing_usingCLI" = 0; "sdk_canonicalName" = "iphonesimulator18.2"; "sdk_osVersion" = "18.2"; "sdk_variant" = iphonesimulator; } -- System Information macOS Version 15.3.2 (Build 24D81) Xcode 16.2 (23507) (Build 16C5032a) Timestamp: 2025-04-08T08:09:36-07:00

I've recently upgraded to Sequoia and Xcode 16.3 (now 16.4RC) and a significant change I've noticed vs 16.2 is that the height of UINavigationBar components in storyboards and XIBs is incorrect. Xcode 16.2: Xcode 16.4: This only affects simulated metrics in storyboard / XIB files. I have been unable to find any discussion of this issue anywhere online. Is this actually an Xcode bug that has gone unnoticed / unfixed or is there some underlying intentional change here that I'm unaware of?

Hi, in XCode and iOS app. Tried to add Icon, got image size errors. reuploaded with correct sizes and started getting this error. Tried all the solutions from forums, didn't work. Restarted Mac Deleted Assets.xcassets and recreated with AppIcon and AccemntColor Copied "Assets.xcassets" from new dummy Project to main one. I don't have info.plist file Could you please help. Thanks, Bhanu

Hi! A few months ago my flutter project was building successfully and then suddenly stopped working after an xcode update. In the latest attempt to build, I see error message Module ‘audioplayers’ not found (in target ‘Runner’ from project ‘Runner’). Thank you in advance for any help! Flutter version: Flutter 3.3.0-0.5.pre • channel beta Xcode version: 16.3 Target ios version: ios 12.0

Hi! I am having trouble getting my app to build successfully or archive since an xcode update a few months ago. Below is the error that shows in the log. Thank you in advance for any help! Run custom shell script 'Run Script' Failed to package [project folder]. Command PhaseScriptExecution failed with a nonzero exit code

I am trying to setup a unversal linking for my new developing app. but it look like not function well. did any one have some examples or demo domains suggest to use? In fact finally my app is just internal using, user will not suppose connect to internet , how can I using the universal linking without a website ? Thanks

I'm working on dext project (c++), Base SDK and Supported Platforms are set to DriverKit. #include causes errors: error "The iostreams library is not supported since libc++ has been configured without support for localization." error "<locale.h> is not supported since libc++ has been configured without support for localization." Also it's not possible to define custom log object: undeclared identifier 'os_log_create'. <os/log.h> included and os_log function is compiled correct. macOS as additional SDK did not help. Thanks a lot for any hint.