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UnrealEngineUWP/Engine/Source/Programs/UnrealHeaderTool/Private/CodeGenerator.cpp
jason bestimt f5c215ebfe #CodeReview: jason.bestimt,nick.whiting,mike.beach 
--------------------------------------
Copying //UE4/Dev-Core to //UE4/Dev-Main (Source: //UE4/Dev-Core [at] 4285612)
#lockdown Nick.Penwarden

============================
  MAJOR FEATURES & CHANGES
============================

Change 3836829 by Ben.Marsh

	UBT: Fix ability to precompile plugins from installed engine builds.

Change 3839519 by Ben.Marsh

	UBT: Simplify configuring bPrecompile and bUsePrecompile settings for modules. Each rules assembly can now be configured as installed, which defaults the module rules it creates to use precompiled data.

Change 4042043 by Steve.Robb

	GitHub #4705 : Added weak lambda's for delegates and multicast delegates.

Change 4042056 by Robert.Manuszewski

	Optimized Mark Phase of GC by up to 10ms by making it run in parallel and removing a huge array presize which we didn't need.

Change 4042104 by Robert.Manuszewski

	Set the minimum GC cluster size to 5 so that GC doesn't have to process micro clusters which are more expensive than processing individual objects

	+ Exposed the minimum cluster size to ini and project settings as gc.MinGCClusterSize
	+ Added the ability to sort clusters by name/object count/mutable object count/referenced clusters count when dumping them with gc.ListClusters command

Change 4042377 by Robert.Manuszewski

	Reworked how GC and other threads (ALT specifically) interact - GC will now notify the ALT it wants to run and ALT will immediately try to finish its current work to allow that. Also the entire ALT tick is now protected against GC running at the same time to improve ALT stability.

	+ added gc.ForceCollectGarbageEveryFrame console variable that triggers a forced GC every frame

Change 4042427 by Robert.Manuszewski

	Changed FGCCSyncObject to use events when waiting for GC to finish so that it doesn't spin on non-game threads when GC is running

Change 4042482 by Robert.Manuszewski

	Unhashing unreachable objects (ConditionalBeginDestroy) will now also be done incrementally, just like the purge phase of Garbage Collection

Change 4042635 by Robert.Manuszewski

	Fix for a potential assert when incremental purge garbage is pending and something forces a full purge

Change 4044092 by Steve.Robb

	Fix for forward declared CoreUObject weakobject types in delegates when building in Clang.

Change 4044102 by Robert.Manuszewski

	Fix for a possible hang when worker threads are preventing GC from running and something is later trying to FlushAsyncLoading with the Async Loading Thread enabled

Change 4044113 by Steve.Robb

	Another Clang fix.

Change 4044160 by Robert.Manuszewski

	Disregard For GC pool will now be enabled by default in cooked builds

Change 4044287 by Steve.Robb

	Typo fix.

Change 4047723 by Graeme.Thornton

	TBA: Fixes for import/export name cache and object resolving

Change 4048015 by Graeme.Thornton

	TBA: Weak/Soft/Lazy pointer serialization changes

	* Remove FWeakObjectPtr::Serialize, move it's logic into, and replace usages of with calls to, FArchiveUObject::SerializeWeakObjectPtr(). Ensures that something is always sent to the archive so that structured archives can be kept happy in the future.
	* Added Weak/Soft/Lazy pointer handling to the structured archive slot interface and all the formatters. Binary formatters just forward the call onto their inner and text archives store as a string path reference.
	* FArchiveUObjectFromStructuredArchive caches all these pointer types and stores indices in the binary block, same as with a UObject*. All pointers are then forwarded to the underlying formatter in one go on finalization.

Change 4048021 by Steve.Robb

	Fix for binding an unbound TFunction to another TFunction with a different signature.  Also all null pointers now count as unbindings, not just nullptr.
	TIsMemberPointer added.
	TIsATFunction and TIsATFunctionRef renamed to remove the 'A's.

Change 4048544 by Robert.Manuszewski

	Fixing ConditionalBeginDestroy profiling after changes to incremental CBD.

Change 4051028 by Graeme.Thornton

	TBA: ArchiveFromStructuredArchive adapter uses Inner to determine if it is outputting to text, and sets it's own ArIsTextFormat to false

Change 4051056 by Graeme.Thornton

	TBA: High level tagged property / UObject base class text serialization
	 - UObject serialize converted to structured archive
	 - Properties written to text individually with text tags, and then binary adapted values
	 - Only saves, doesn't load

Change 4051111 by Graeme.Thornton

	TBA: Temporarily disable loading of text assets until tagged property serialization path is fixed up

Change 4051154 by Graeme.Thornton

	TBA: Convert a few uobject serializers to structured archive format for example purposes

Change 4051181 by Graeme.Thornton

	TBA: Added default structured archive implementation of SerializeItem to UProperty, which just calls the FArchive version on an FArchiveUObjectFromStructuredArchive adapter. Implemented structured archive SerializeItem for UArrayProperty

Change 4051197 by Graeme.Thornton

	TBA: ObjectProperty text serialization

Change 4051216 by Graeme.Thornton

	Restored a modified FWeakObjectPtr::Serialize function to keep backwards compatibility in code I don't have access to.

Change 4051261 by Graeme.Thornton

	TBA: Convert UMetaData to structured archive

Change 4051374 by Steve.Robb

	Incorrect assert removed.

Change 4051562 by Robert.Manuszewski

	Adding stats for the new GC internal functions

Change 4051614 by Graeme.Thornton

	TBA: Removed UProperty::SerializeItem(FArchive, ...) and replaced with UProperty::SerializeItem(FStructuredArchive::FSlot, ...). Fixed up most of them to work properly and added adapters in for any that were non-trivial.

Change 4052512 by Graeme.Thornton

	TBA: Temporary workaround for softobjectptr and lazyobjectptr uproperties not serialization anything when they know the archive is a reference collector. They should always be serializing their pointers and letting the underlying archive itself ignore them.

Change 4053917 by Robert.Manuszewski

	Clustered objects from clusters that are no longer reachable will now be marked as unreachable immediately when gathering unreachable objects

Change 4053919 by Robert.Manuszewski

	Added the ability to disable incremental BeginDestroy in ini/project settings

Change 4055518 by Daniel.Lamb

	Fixup for deterministic audio generation issue.
	Submitted on behalf of Rich.Whitehouse

	#jira nojira
	#test prefilght automated test.

Change 4056854 by Graeme.Thornton

	TBA: Added a test asset to EngineTest which contains all the different property types and test cases.

Change 4056858 by Graeme.Thornton

	TBA: Updated USetProperty to proper structured archive usage

Change 4056872 by Graeme.Thornton

	TBA: Add map property field to test object

Change 4056873 by Graeme.Thornton

	TBA: Convert UMapProperty to full structured archive

Change 4056994 by Graeme.Thornton

	TBA: Converted FText over to structured archive. Implemented saving, but not loading.

Change 4059728 by Ben.Marsh

	UBT: Add support for using adaptive non-unity builds when the engine and project are in separate repositories.

Change 4059805 by Graeme.Thornton

	Fixed typo in text serialization. Fixes CIS automation test errors

Change 4060007 by Graeme.Thornton

	TBA: FArchiveFromStructuredArchive will now access it's host slot lazily, i.e. only when a value is actually written to the archive.

Change 4060092 by Stefan.Boberg

	Added optimized Windows console window output path to GenericConsoleOutput since this slowed down cooking considerably (2 minutes spent in wprintf alone for one large dataset)

	When stdout is attached to a console we use the WriteConsoleW function instead of wprintf since the latter is very slow especially in unbuffered mode which the engine currently configures for stdout (see setvbuf call in LaunchEngineLoop.cpp).

	At some point we should reconsider this buffering policy since it's likely to slow down other platforms as well but I wanted to do a safe change for now as I don't yet fully understand why the setvbuf call is there in the first place.

Change 4060108 by Stefan.Boberg

	Introduced some additional target platform utilities to help with asset cook optimizations

	* We now assign each ITargetPlatform a zero-based ordinal value
	* Introduced FTargetPlatform and FTargetPlatformSet types to help store platform references and platform sets efficiently.

	These are not currently used in the engine but are designed to replace the existing ITargetPlatform/string/FName representations in the cooking data structures.

Change 4060143 by Graeme.Thornton

	Undo //UE4/Dev-Core/Engine/Source/Runtime/... changelist 4060007

	Needs some other changes that I haven't checked in yet...

Change 4062432 by Ben.Marsh

	Fix error message when enumerating P4 changes.

Change 4062648 by Ben.Marsh

	Add missing p4 integration action.

Change 4063620 by Graeme.Thornton

	Integrated a fix from UDN where the engine would crash when trying to load a very small encrypted file (<16bytes) from a pak file, where the read address wasn't already aligned to the AES block size.

	(https://udn.unrealengine.com/questions/431989/crash-while-reading-a-very-small-file-in-encrypted.html)

Change 4066963 by Robert.Manuszewski

	Fixing GC cluster verification code reporting false positives when a cluster is referencing another cluster through 'mutable' objects list.

Change 4067133 by Robert.Manuszewski

	Changed log verbosity when reporting individual cases of GC cluster assumption violations as they are followed by an asser anyway and this way we get the chance to see all issues before we assert at the end of these checks.

Change 4067443 by Steve.Robb

	FString can now be constructed from any char pointer type and length.

Change 4068156 by Steve.Robb

	Fix necessary because of FString constructor change in CL# 4067443.

Change 4070258 by Graeme.Thornton

	Fixes for VSCode

Change 4070372 by Graeme.Thornton

	TBA: Script struct serialization to structured archives

Change 4071913 by Ben.Marsh

	Move bulk of the code for UnrealPak into an engine developer module, so it can be used in the editor.

Change 4071914 by Ben.Marsh

	Missing files.

Change 4071937 by Ben.Marsh

	Missing header.

Change 4072015 by Ben.Marsh

	Fixes for compiling PakFileUtilities as part of the editor.

Change 4072826 by Steve.Robb

	TBitArray::Reserve() added.
	TBitArray::Add() overloaded to allow adding multiple bits.
	TSparseArray::Reserve() optimized to call the overloaded Add().

Change 4073271 by Daniel.Lamb

	Fixed add patch tier in project launcher passing the wrong commandline option to UAT.

	#test none

Change 4074708 by James.Hopkin

	#core Removed redundant Casts

Change 4074763 by Steve.Robb

	Fix for TSparseArray::Reserve() size.

Change 4076063 by Ben.Marsh

	Add an "UnrealPak" commandlet with the same functionality as the standalone UnrealPak program. Invoke by running the editor with -run=UnrealPak and the standard UnrealPak commandline options.

Change 4077064 by Robert.Manuszewski

	Fixing compile error in PakFileUtilities

Change 4077144 by Graeme.Thornton

	TBA: TextAssetCommandlet improvements

	* Collect lists of broken assets during roundtrip tests and print a summary of packages that failed each phase at the end
	* After resaving as text, load the file back as a plain JSON hierarchy to ensure the output was valid

Change 4077412 by Ben.Marsh

	Set the correct exit code for UnrealPak. Should return 0 on success, not 1.

Change 4077760 by Graeme.Thornton

	TBA: Loading fixed for tagged property serialization

	Includes conversion of all UProperty::ConvertFromType() and SerializeFromMismatchedTag() functions to use structured archives

	Lazy initialization of FArchiveFromStructruredArchive when loading, to support the possibility of an adapter being create around an object property serialize call to its inner UStruct, which then decides not to do anything and return false. Stops the ArchiveFromStructuredArchive from consuming the slot and getting upset later on when we try to serialize normal tagged properties from it.

	Disabled lazy bulk data loading from text assets. Requires a bigger change to make it work.

	Added some debug checks to json input formatter which track the current value stack size when a new object is pushed onto the stack, and makes sure that the stack has returned to the same size when the object is popped. Catches cases where we unpack an array/stream to the value stack but then don't consume all the items.

Change 4078800 by Ben.Marsh

	Change UAT to using the editor's UnrealPak commandlet rather than invoking the standalone UnrealPak executable. To improve performance when building several PAK files, also add a new -batch=<file> command which reads commands to execute in parallel from a text file.

Change 4079745 by Graeme.Thornton

	TBA: Migrated a couple of UObject Serialize functions to FStructuredArchive (SoundCue / MaterialExpressions / Editor strip flags)

Change 4079847 by Graeme.Thornton

	TBA: Add 'FindMismatchedSerializers' mode to text asset commandlet, which dumps out a list of all UClasses which don't have the CLASS_MatchedSerializers flag, meaning we can't guarantee the have Serialize functions for FArchive AND FStructuredArchive, therefore we can't use the new structured archive based serialize path. Should only ever be native instrinsic classes as UHT takes care of all other cases.

Change 4079925 by Ben.Marsh

	Fix incorrect assignment when deriving name for chunked pak file.

Change 4080214 by Ben.Marsh

	Move the ThreadPoolWorkQueue class into DotNETUtilities so it can be used by other projects.

Change 4082394 by Graeme.Thornton

	CIS fix for variable shadowing warning

Change 4082583 by Ben.Marsh

	Add a IBinarySerializable interface for types that support reading from a BinaryReader and writing to a BinaryWriter. Implementing IBinarySerializable implies a constructor taking a BinaryReader argument is available for deserializing.

Change 4082652 by Ben.Marsh

	Fix FileReference.Directory not returning a directory with a trailing backslash for files in the root directory.

Change 4082755 by Graeme.Thornton

	Fixed an erroneous usage of TUniquePtr<uint8>as a pointer to a uint8 array when creating pak files. Caused a crash when compression was enabled, and has probably surfaced because pak generation is now done by an editor commandlet rather than a standalone program.

Change 4082756 by Graeme.Thornton

	Fixed some incorrect documentation for pakfile compressed chunk headers

Change 4082883 by Graeme.Thornton

	Static analysis warning fix

Change 4082912 by Ben.Marsh

	Move ExceptionUtils into DotNETUtilities.

Change 4085291 by Graeme.Thornton

	TBA: In the Json output formatter, write float and double values out with enough precision for successful roundtripping. Added some debug only code which will immediately reconvert the string back to its original value and compare the the input

Change 4085523 by Graeme.Thornton

	TBA: Remove only explicit usage of DECLARE_FSTRUCTUREDARCHIVE_SERIALIZER. Should only be used from UHT generated code.

Change 4086037 by Robert.Manuszewski

	Fix for a potential race condition when two threads want to acquire GC lock

Change 4088655 by Graeme.Thornton

	Pak creation now uses the bEnablePakSigning setting from the crypto config json file

Change 4091474 by Steve.Robb

	Fix for TStaticBitArray::FindFirstSetBit() and TStaticBitArray::FindFirstClearBit().
	Unused variables removed.

Change 4093632 by Steve.Robb

	CIS fixes.

Change 4093656 by Graeme.Thornton

	Build fix

Change 4093744 by Ben.Marsh

	Allow per-chunk settings for whether to enable compression in UnrealPak.

Change 4099712 by Gil.Gribb

	UE4 - Fixed rare case where insufficient space was preallocated for cooldown ticks.

	#jira UE-59686

Change 4099912 by Stefan.Boberg

	Cooking timer optimizations:

	- Replaced data structures for FScopeTimer and FHierarchicalTimerInfo. Previous implementation used FString for many things and caused *lots* of heap and string concatenation activity. Replaced with a compile-time node id (using __COUNTER__) and raw string literals.
	- Removed PERPACKAGE_TIMER support (was disabled by default and was difficult to test)
	- Made it possible to toggle OUTPUT_TIMING and ENABLE_COOK_STATS independently
	- Removed some extremely tight timers because the overhead from calling QPC significantly exceeded the measured code

	This change shaved some 15% off a clean cook of Fortnite WindowsClient (en) with fully populated local DDC

Change 4100519 by Stefan.Boberg

	Quick fix for Linux build issue introduced in 4099927

Change 4105327 by Stefan.Boberg

	Cooker: Changed FHierarchicalTimerInfo so it uses a linked list for tracking child nodes, to be able to deal with any child count. Previously we assumed there would never be more than 9 children but it turns out there are cooker modes that need more.

	Fixes check when using -FullLoadAndSave to cook

Change 4105448 by Stefan.Boberg

	- Fixed Linux build warning re: member initialization order
	- Also eliminated OUTPUT_HIERARCHYTIMERS/CLEAR_HIEARCHYTIMERS macros (plain functions are fine)
	- Moved finishing-up code for FullLoadAndSave() to TickCookOnTheSide() call site to improve timer output. Previously some of the scopes would not have been closed before printing and thus the output was misleading.

Change 4109031 by Ben.Marsh

	Attribute-driven Perforce wrapper (old Epic Friday project). Offers a more complete implementation than the current P4 wrapper in UAT without requiring any platform-specific libraries. Uses the Python binary output for parsing.

Change 4109588 by Ben.Marsh

	UBT: Add extension methods for serializing a nullable type to a BinaryReader/BinaryWriter.

Change 4109595 by Ben.Marsh

	Missing project file for DotNETUtilities.

Change 4110724 by Stefan.Boberg

	Removed annotation map locking in UObjectMarks, eliminating around one minute (~3.5%) from Fortnite cook time.

	The locking was redundant since the annotation maps are managed per thread anyway.

Change 4111304 by Ben.Marsh

	UAT: Add support for setting a status message through the log class. Allows writing transient messages (eg. progress messages) which will be cleared out before writing other messages. Best used through the LogStatusScope class, which can set a status message for the duration of a using() block.

	As part of this change, the console no longer has to be added as a dedicated trace listener. Since we already special-case this listener when formatting log output, it's easier to just keep the implementation separate to the other trace listeners.

Change 4112708 by Steve.Robb

	Fix for TBitArray::MaxBits in assignment.

Change 4114133 by Stefan.Boberg

	Tweaked how low-level memory (LLM) tracker is implemented to reduce overheads.

	Previously FMemory functions would acquire the LLM singleton and call OnLowLevelFree/OnLowLevelAlloc etc which would check the bIsDisabled flag and early out if it was set. Due to how frequently these functions were called this ended up costing quite a bit.

	- This change makes the flag a static member variable instead of a member variable and therefore enables a simpler early-out to be implemented.
	- The singleton getter is also simplified to avoid hitting the threadsafe singleton construction path on every call.
	- The enable flag is no longer TAtomic - this also incurs extra overhead for no clear benefit

	Shaves approximately 3.5% (one minute) off a Fortnite cook test scenario (using -FullLoadAndSave)

Change 4115010 by Robert.Manuszewski

	Fixing CIS

Change 4115249 by Robert.Manuszewski

	Fixing async loading code asserts when exiting game very early due to an error

	#jira UE-56267

Change 4117091 by Ben.Marsh

	Prevent doubled-up lines when writing status updates with console log verbosity.

Change 4117207 by Ben.Marsh

	UGS: Do not include executables in diagnostics zip file, and ignore "no such files" error when cleaning workspace.

Change 4119175 by Ben.Marsh

	UGS: Fix crash writing version files when directory does not already exist.

Change 4119987 by Ben.Marsh

	UGS: Show a dialog box while the launcher is updating executables from Perforce, which allows cancelling the operation if necessary. Allow setting the username on the settings window, and prompt for login credentials if necessary. Should prevent situations where users have to update settings from the command prompt.

	Holding down shift during launch now shows the settings dialog rather than an immediate prompt to launch the unstable version (unstable version is shown as a checkbox on this dialog).

Change 4119991 by Ben.Marsh

	Update version number for UGS launcher to 1.13.

Change 4121943 by Robert.Manuszewski

	Don't use FArchiveAsync2 for reading packages with non-async path in editor builds as its performance is worse than the standard archive's (saves about 1 minute when doing larger cooks and 7 seconds when loading into PIE)

Change 4122592 by Steve.Robb

	GitHub #4762 : Improve wording and grammar of Math comments
	Also includes improved accuracy in FMath::ComputeBoundingSphereForCone().

Change 4122819 by Stefan.Boberg

	Don't call CreateDirectory redundantly when opening files for writing using FFileManagerGeneric::CreateFileWriter

	This change avoids calling IPlatformFile::CreateDirectoryTree if possible since this is a very expensive function especially for deep hierarchies as it performs directory creation from the root directory onwards instead of from the leaf downwards. That function should also be fixed but this change improves performance in the meantime.

Change 4122872 by Stefan.Boberg

	CreateDirectoryTree now creates directories leaf-to-root instead of the other way around. This is much more efficient since we don't spend time on system API calls for directories which already exist. This accounted for a very large amount of CPU time in cooking as the full target file directory hierarchy would be "created" for every single output file.

Change 4123109 by Stefan.Boberg

	- Disable overlapped I/O in editor / cooker. Synchronous I/O reduces the number of syscalls and Windows performs prefetching on our behalf anyway for sequential reads
	- Eliminated syscall which was issued for every write to update cached file size -- since we're the only writers to the file (file access allows read sharing at most) we can authoritatively update the file size on write completion

Change 4123455 by Ben.Marsh

	PR #4775: New build param PCHMemoryAllocationFactor to set /Zm VS build param. (Contributed by lucaswall)


Change 4124207 by Ben.Marsh

	UBT: Remove some unnecessary indirection for generated code paths.

Change 4124217 by Ben.Marsh

	UBT: Remove another unused variable from UEBuildModuleCPP.

Change 4124377 by Stefan.Boberg

	In IPlatformFile::DeleteDirectoryRecursively, attempt to delete file first and if it fails clear the readonly flag and try again

	Previously there was a call to clear the readonly flag for every deleted file and this is a waste of resources 99% of the time. The SetFileAttributes call accounted for a significant amount of time during cooker sandbox directory deletion

Change 4125071 by Stefan.Boberg

	Some tweaks to FQueuedThreadPoolBase scheduling and memory management

	- Explicitly pass in false for TArray::RemoveAt(..., bool bAllowShrinking) argument to prevent memory reallocation when arrays are drained and inevitably repopulated shortly afterwards
	- Use a MRU strategy instead of LRU when picking a thread to wake up. The MRU thread is the most likely to have a 'hot' cache for the stack etc. Picking from the back of the array also happens to be cheaper since
	no memory movement is necessary when RemoveAt is called. (This was the strategy in place before CL2600362 which seems to have changed it unintentionally)
	- Release lock as soon as a thread has been chosen, before asking the worker thread to wake up and do the work

Change 4126132 by Ben.Marsh

	UAT: Detect when stdout is redirected and prevent using backspace characters to move the cursor.

Change 4126867 by Graeme.Thornton

	TBA: Fix tagged binary formatter

Change 4127010 by Robert.Manuszewski

	AnimScriptInstances created at runtime will now also be added to the owning omponent's cluster to avoid GC issues.

Change 4127932 by Ben.Marsh

	WorkspaceTool: Reduce unnecessary logging of status messages when console output is not redirected.

Change 4129050 by Ben.Marsh

	UGS: Check for NET Framework 4.5 being installed before running the installer. Also fix warning trying to kill existing UGS instances before upgrade.

Change 4129459 by Graeme.Thornton

	TBA: TextAssetCommandlet - When outputting converted assets to an output path, replicate the workspace relative path in the output directory

Change 4129515 by Graeme.Thornton

	TBA: Add EnterRecord overload that allows outputting of available field names when loading.

Change 4129517 by Graeme.Thornton

	TBA: Tagged properties are written out as named fields on the "Properties" record, rather than as a stream with a null tag at the end

Change 4129518 by Graeme.Thornton

	TBA: Added a local const bool to allow easy hacking out of text asset loading support

Change 4129558 by Graeme.Thornton

	TBA: Build fix for textasset-less configs

Change 4129614 by Ben.Marsh

	UGS: Main window is now restored to normal size when activated by clicking on the tray icon.

	#jira UE-60490

Change 4129618 by Ben.Marsh

	UGS: Speculative fix for unreproduced exception accessing disposed window while shutting down.

Change 4131936 by Robert.Manuszewski

	Removing some WIP code accidentally checked in with CL #4121943

Change 4133490 by Ben.Marsh

	UGS: Allow the $(Change) variable to be used in more places than just the context menu.

	#jira UE-60573

Change 4133550 by Ben.Marsh

	UGS: Setting for whether or not to use incremental builds is now exposed through the variable "$(UseIncrementalBuilds)" for use by custom build steps.

	#jira UE-60554

Change 4133681 by Ben.Marsh

	UGS: A per-project list of folders and extensions to be deleted by default when running the 'clean workspace' tool can now be specified through the <ProjectDir>/Build/UnrealGameSync.ini file. Settings may be specified for an individual branch (via a category with the depot path to the project) or for wherever the project is currently open (via the [Default] category).

	The SafeToDeleteFolders list specifies a substring that will be checked against folder paths. Anything containing this folder will be marked as safe for delete by default.

	The SafeToDeleteExtensions list specifies a list of extensions for files that can always be deleted.

	Example:

	 [Default]
	+SafeToDeleteFolders=/MyGame/Test/
	+SafeToDeleteFolders=/DataService/
	+SafeToDeleteExtensions=.xx1
	+SafeToDeleteExtensions=.xx2

	#jira UE-60575

Change 4135449 by Ben.Marsh

	Fix allowing use of Job objects on Windows platforms (debug code submitted by mistake)

Change 4135730 by Ben.Marsh

	UBT: Plugins can now be enabled and disabled from the .target.cs file (for targets that do not use the shared compile environment), by compiling the list of enabled/disabled plugin names into the Projects module.

Change 4135823 by Ben.Marsh

	UBT: Remove legacy code to handle disabling optional plugins; now that this is compiled into the target, it will work for any plugins we choose.

Change 4135945 by Ben.Marsh

	UBT: Fix error running programs with no explicitly enabled or disabled plugins.

Change 4137207 by Ben.Marsh

	UGS: Align all badges with the same name, to make it easier to see which CIS steps are being run. Allow overriding the slot taken by a particular badge by calling it "SlotName:LabelName".

Change 4137311 by Stefan.Boberg

	Removed child cooker support.

	In practice it is not a useful feature as it provides no performance improvement (quite the opposite in fact) and adds testing and maintenance complexity.

Change 4137393 by Ben.Marsh

	UGS: Fix display of multiline errors in the status panel.

Change 4141708 by Steve.Robb

	GitHub #3631 : Incorrect default argument in WeakObjectPtrTemplate

	#jira UE-45490

Change 4146655 by Stefan.Boberg

	Removed FullGCAssetClasses logic - no longer necessary nor useful

Change 4147318 by Ben.Marsh

	UGS: Compress build badges in a column if it shrinks below the size that they would be visible.

Change 4148207 by Ben.Marsh

	UGS: Added support for showing the latest completed build from a specific list of badges in the status panel. To declare a badge as one that should appear in the status panel rather than the CIS column, add it to the project's UnrealGameSync.ini in the project or [Default] section like so:

	+ServiceBadges=RoboMerge

Change 4148282 by Stefan.Boberg

	Fixed bug in UCookOnTheFlyServer::GetCookOnTheFlyUnsolicitedFiles - UnsolicitedFiles should be passed by reference not by value

Change 4148344 by Stefan.Boberg

	Fixed minor indentation error (most likely caused by sloppy merge)

Change 4148521 by Stefan.Boberg

	Removed accidentally checked in PRAGMA_DISABLE_OPTIMIZATION from CookOnTheFlyServer.cpp

Change 4148639 by Ben.Marsh

	UGS: Fix tooltips not showing for changes that have description badges.

Change 4149373 by Ben.Marsh

	UGS: Allow adding additional columns to display particular badges by adding entries from the project config file. Example syntax:

	+Columns=(Name="Desktop",MinWidth=50,DesiredWidth=100,Weight=3,Badges="Editor")
	+Columns=(Name="Mobile",MinWidth=50,DesiredWidth=100,Weight=3,Badges="IOS,Android")

	Same form can be used to control how default columns are displayed (though badge settings are ignored). Also allow PerforceMonitor to detect local changes to project config files and update settings automatically.

Change 4149399 by Ben.Marsh

	UGS: Update version to 1.143.

Change 4155660 by Steve.Robb

	PROJECTION and PROJECTION_MEMBER macros which provide the correct behavior when creating projections using functions which are overloaded or use default arguments.

Change 4157117 by Ben.Marsh

	Fix warning due to plugins disabled in .target.cs file.

Change 4158011 by Ben.Marsh

	UBT: Add a check that the UnrealHeaderTool target file exists, rather than throwing an exception when reading it fails.

Change 4158646 by Ben.Marsh

	UGS: Fix exception when login is discovered to have expired during a workspace update.

Change 4158678 by Ben.Marsh

	UGS: Fix an exception on shutdown due to the icon being hidden after it's already been disposed.

Change 4158683 by Ben.Marsh

	UGS: Add an unhandled exception filter which sends the exception data to the backend.

Change 4159131 by Ben.Marsh

	UGS: Reduce the number of characters displayed for build badges based on the available space.

Change 4159194 by Graeme.Thornton

	TBA: Fix incorrect map property conversion code when converting an old property that contains a map with different key/value types

Change 4159239 by Steve.Robb

	Improved readability and compliance with coding standards.

Change 4159246 by Ben.Marsh

	UGS: Allow syncing projects where source code is not available (and various version files don't exist).

	#jira UE-60985

Change 4159286 by Ben.Marsh

	UGS: Remove requirement for UE4Editor.target.cs to be visible in the depot in order to open a project.

	#jira UE-60986

Change 4159302 by Ben.Marsh

	UGS: Update version to 1.144.

Change 4160308 by Ben.Marsh

	All staging client executables for blueprint projects.

	#jira UE-60983

Change 4161567 by Steve.Robb

	GitHub #4816 : UE-60771: Handle escaped double quote in FParse::LineExtended

Change 4162641 by Ben.Marsh

	UGS: Allow customizing the position of custom columns, via the Index=N attribute.

Change 4162647 by Ben.Marsh

	UGS: Update version to 1.145.

Change 4165319 by Robert.Manuszewski

	PR #4812: Fix inconsistent command-line argument handling under Windows (Contributed by adamrehn)


Change 4166150 by Ben.Marsh

	UGS: Include *.inl when looking for code changes.

Change 4166551 by Steve.Robb

	Whitespace fixes caused by a bad merge.

Change 4168483 by Ben.Marsh

	UGS: Add a more useful error if a file to be synced exceeds the max allowed path length.

Change 4168490 by Ben.Marsh

	UGS: Update version to 1.146.

Change 4168551 by Ben.Marsh

	UBT: Move bBuildLargeAddressAwareBinary into an exposed setting.

Change 4168560 by Ben.Marsh

	UBT: Remove static config variable for controlling which configuration of UHT to use.

Change 4171296 by Ben.Marsh

	UGS: Move the check for overlong paths earlier.

Change 4171531 by Ben.Marsh

	UBT: Fix exception if BuildConfiguration.xml contains an unknown category.

Change 4183371 by Robert.Manuszewski

	Fix for a crash in Async Loading Graph's CheckCycles when GC kicks in on the game thread and forces ALT to exit early

Change 4184312 by Ben.Marsh

	UGS: Update version to 1.148

Change 4184480 by Robert.Manuszewski

	Removing unused async loading stat

Change 4186390 by Ben.Marsh

	UBT: Format XML validation errors in a format that allows double-clicking on the message in Visual Studio.

Change 4188644 by Ben.Marsh

	UBT: Add the MakePathSafeToUseWithCommandLine() function to UBT.

Change 4188647 by Ben.Marsh

	UBT: Fix exception in target receipt when architecture is null.

Change 4189617 by Ben.Marsh

	Change FileSystemReference, FileReference and DirectoryReference objects to use OrdinalIgnoreCase comparisons without creating a separate copy of the string to compare. The filesystem does not use the invariant culture, and it can produce the wrong results in some cases (the ordinal comparison is faster, too).

Change 4189740 by Ben.Marsh

	UAT: Remote code to build UnrealPak when packaging; we use the editor now.

Change 4189860 by Ben.Marsh

	UGS: Make the filter for excluding automated lighting rebuilds more explicit.

Change 4190082 by Ben.Marsh

	Fixes to allow enabling edit and continue for Windows builds. Have experienced quite a few VS crashes when testing it in editor; not yet recommended for general use.

	- Allow edit and continue for any configuration, not just debug.
	- Fixed PDB errors compiling files that use a shared PCH with edit and continue enabled. Path to the generated PDB file was using the wrong directory.
	- Removed code that tracks PDB output files, since they're modified multiple times during a build.
	- Enable debug information when compiling generated CPP files, since it causes errors if the shared PCH PDB doesn't have the same option.
	- Disable support for remote execution of steps that modify the PDB, since the same file has to be modified many times. Remote execution causes the PDB files to be corrupted. Unfortunately, this makes E&C builds significantly slower.

	#jira

Change 4192949 by Ben.Marsh

	UBT: Minor tidy-up (merging UEBuildBinary.Build and UEBuildBinary.SetupOutputFiles)

Change 4193218 by Ben.Marsh

	Fix formatting.

Change 4197252 by Mike.Erwin

	UAT: Fix log output w/ correct count of non-code projects.

	#jira none

Change 4197941 by Ben.Marsh

	UGS: Add support for DebugGame editors that have an executable with a DebugGame suffix.

Change 4197964 by Ben.Marsh

	UGS: Prevent attempts to automatically reopen projects while a modal dialog is up, or the workspace is syncing.

Change 4198144 by Ben.Marsh

	UGS: Prevent modal dialogs when login expires in P4, and prompt for password when hitting "retry".

Change 4198413 by Ben.Marsh

	UGS: Always show the main window when launched manually, and run with -RestoreState when launched at startup. Also add a couple more places that save the visibility state, since logging off seems like it can terminate the process abrubtly.

Change 4198779 by Ben.Marsh

	UBT: Allow generating manifests to any arbitrary locations with the -Manifest=<Path> argument.

Change 4198825 by Ben.Marsh

	UBT: Move code to enumerate Slate runtime dependencies into the Slate module. Doesn't need to be done inside core UBT.

Change 4199341 by Ben.Marsh

	UGS: Update version to 1.149

Change 4199642 by Chad.Garyet

	- Deprecate CISController
	- Add BuildController to replace CIS GET/POST for builds
	- Add LatestController, GET does what CIS/GET used to do
	- Change Latest/GET to return the last 25 builds filtered by project, rather than the last 5000 individual Ids
	- Latest/GET now returns "LatestData" object instead of array of longs
	- Updated EventMonitor to match all API changes
	- Fixed bug where IDs were getting reset to initial startup values every update loop

Change 4199663 by Chad.Garyet

	CIS controller still needs to return an array of longs
	#jira none

Change 4199680 by Ben.Marsh

	UGS: Update version to 1.150

Change 4200457 by Ben.Marsh

	Merging CIS fix for non-development configurations.

Change 4200472 by Mike.Erwin

	UAT: fix -skipbuildclient param default

	It was defaulting to skipbuildeditor's value, likely a copy-paste error.

	#jira none

Change 4202595 by Ben.Marsh

	Fix static analysis warning due to constant comparison against macro.

Change 4203250 by Ben.Marsh

	UGS: Always show the "Sync Precompiled Editor" option, but disable it and show a tooltip explaining why if it is not available.

Change 4206191 by Ben.Marsh

	Exclude editor target files from installed builds, since they leak info about DLLs that have been stripped out.

Change 4213011 by Ben.Marsh

	UBT: Include contents of modified intermediate files in the log, to make it easier to debug hidden dependencies.

Change 4213487 by Ben.Marsh

	UBT: Fix assumption that bPrecompile is equivalent to bBuildAllModules. This is no longer the case; they are now controlled by separate options. Should fix CIS errors building the editor.

Change 4213609 by Ben.Marsh

	Ensure that strings formatted using FMicrosoftPlatformString::GetVarArgs() are always null terminated, whether we use the secure CRT or not.

Change 4215971 by Ben.Marsh

	UBT: Remove action graph visualization code; no longer used.

Change 4215996 by Ben.Marsh

	UBT: Remove unqiue id from all actions in the action graph. This is only used for printing debug info in the case of a (rare) cycle in the action graph, so just look it up when needed.

Change 4216022 by Ben.Marsh

	UBT: Rename Crypto.cs to EncryptionAndSigning.cs to match the name of the class inside it, and move it under the System folder.

Change 4216031 by Ben.Marsh

	UBT: Move all the action executors into their own folder in the project.

Change 4216526 by Ben.Marsh

	Fix CIS warnings.

Change 4216544 by Ben.Marsh

	Replace custom code to ensure FMicrosoftPlatformString::GetVarArgs() null terminates its buffer with Microsoft's standards-compliant implementation.

Change 4216633 by Ben.Marsh

	Add support for UnrealPak plugins.

	* Project and plugin modules can now specify an array of supported programs in the "WhitelistPrograms" field of their module descriptors, to allow modules to be loaded by programs.
	* Programs can now load any runtime modules, as long as they are whitelisted.
	* Programs under the engine directory can now use a shared build environment, so that building with a project file does not cause output binaries to be output to the project directory.
	* UnrealPak is now always built by default when packaging
	* Convert UnrealPak to a modular configuration

Change 4216736 by Ben.Marsh

	UnrealPak: Move "ExportDependencies" command into an editor commandlet, since it relies on the UObject system, asset registry, etc...

Change 4217447 by Ben.Marsh

	Back out revision 50 from //UE4/Dev-Core/Engine/Build/InstalledEngineBuild.xml

Change 4217451 by Ben.Marsh

	Back out revision 11 from //UE4/Dev-Core/Engine/Plugins/Developer/VisualStudioSourceCodeAccess/Source/VisualStudioSourceCodeAccess/VisualStudioSourceCodeAccess.Build.cs

Change 4217617 by Ben.Marsh

	Back out changelist 4217451

Change 4222552 by Ben.Marsh

	Don't use #import <TypeLib> for VS source code accessor when building with Clang; it's not supported.

Change 4222630 by Ben.Marsh

	UBT: Fix spam while generating project files if Clang isn't installed.

Change 4223316 by Ben.Marsh

	UBT: Change the order in which Visual C++ toolchains are enumerated to prefer full releases over preview releases.

Change 4223318 by Ben.Marsh

	UBT: Add a build setting which allows creating a dedicated PCH for every file that's excluded from the unity working set (disabled by default). Improves iteration times when working on individual cpp files, but slows down iterating on header changes (and can take a lot of disk space for large changes).

	Dedicated PCH contains all includes scraped from the top of each cpp file, until a non-#include directive is encountered.

Change 4223401 by Ben.Marsh

	UBT: Add an option to automatically enable edit and continue for files in the adaptive non-unity working set. E&C doesn't seem very useful for UE4 projects right now; compile time is comparable to regular build times, but it can take several minutes to apply code changes for large projects.

Change 4223899 by Ben.Marsh

	UBT: Fix loading XML config files on Mono; Type.GetField(Name) does not seem to return values unless binding flags are specified.

Change 4224637 by Ben.Marsh

	Add a "SupportedPrograms" field to plugin descriptors, which allows plugins to declare which plugins they support independently of individual modules. Programs now respect the "bEnabledByDefault" setting in plugins.

	Plugins that are compatible with a program now need to list that program in the SupportedPrograms list, and whitelist any modules that should load for that program.

Change 4224710 by Ben.Marsh

	UBT: Don't add import libraries as final build products unless the target is being precompiled. Prevents the need for building them for leaf nodes in the action graph.

Change 4224715 by Ben.Marsh

	UBT: Remove hack to allow Stats2.cpp to not follow IWYU convention.

Change 4224726 by Ben.Marsh

	Remove commented out line.

Change 4224903 by Ben.Marsh

	Fix non-unity compile error in Stats2.h.

Change 4225051 by Ben.Marsh

	Back out changelist 4224710; causing CIS errors due to receipts not matching.

Change 4225134 by Ben.Marsh

	Fixing non-unity errors.

Change 4225203 by Ben.Marsh

	Another non-unity fix.

Change 4225249 by Ben.Marsh

	Fix Linux dependencies being copied for the Windows editor; they can be added as requirements for the Linux target platform on Windows instead, so it respects the user's chosen platforms.

	#jira UE-62001

Change 4225512 by Ben.Marsh

	BuildGraph: Allow setting the target to build when using the <CsCompile> task.

Change 4228815 by Ben.Marsh

	UBT: Always add the generated code directory to the list of include paths when generating project files. It may only be created after UHT has been run.

Change 4228944 by Ben.Marsh

	UBT: Remove legacy CppCompileEnvironment and LinkEnvironment wrappers from TargetRules that were deprecated in 4.19.

Change 4229028 by Ben.Marsh

	UBT: Fix editor targets with unique build environment having the wrong executable path in generated project files. Move move logic to configure target rules post-construction by the rules assembly to ensure it's valid.

Change 4229065 by Ben.Marsh

	UBT: Move another target setting into the rules assembly.

Change 4229105 by Ben.Marsh

	Fix BPT exception when generating project files.

Change 4229311 by Ben.Marsh

	UBT: Store the module rules file location on the ModuleRules instance, as well as the plugin that it was created from. Also expose the plugin directory as a property on the ModuleRules instance.

Change 4229421 by Ben.Marsh

	UBT: Consolidate functionality for UHT module setup in ExternalExecution.cs.

Change 4229817 by Ben.Marsh

	UBT: Modules must now explicitly specify the path to the header used to generate a PCH if one is desired, rather than the header being determined automatically by attempting to parse the source code. Now that PCHs are force-included anyway, this removes a lot of dependencies inside UBT.

Change 4229824 by Ben.Marsh

	UBT: Remove unused lists inside UEBuildModuleCPP.SourceFilesClass.

Change 4229841 by Ben.Marsh

	UBT: Remove some legacy code from auto-detecting PCHs.

Change 4230521 by Ben.Marsh

	UBT: Add utility functions to the log class to allow formatting errors and warnings in Visual Studio output format (eg. File(Line): warning: Message)

Change 4230871 by Ben.Marsh

	UAT: Remove StreamUtilis utility class; there is a simpler way to implement the one place it's used.

Change 4230882 by Ben.Marsh

	UAT: Add StreamUtils back into UAT, seems like it's still used there.

Change 4230896 by Ben.Marsh

	UBT: Remove some redundant parameters from UEBuildModule/UEBuildModuleCPP/UEBuildModuleExternal constructors.

Change 4231014 by Ben.Marsh

	WorkspaceTool: Include a dump of raw bytes when garbage is read from the P4 process, for diagnostic purposes.

Change 4231032 by Ben.Marsh

	Fix CIS.

Change 4231096 by Ben.Marsh

	Bump the FlatCPPIncludeDependencyCache version, to prevent errors trying to load old files.

Change 4231446 by Ben.Marsh

	UBT: Added support for expanding UE-specific variables in include paths and library paths: $(EngineDir), $(ProjectDir), $(PluginDir), $(ModuleDir).

Change 4231460 by Ben.Marsh

	Modules may now explicitly specify rpaths on Linux via the PublicRuntimeLibraryPaths and PrivateRuntimeLibraryPaths properties.

Change 4233909 by Robert.Manuszewski

	PR #4779: Reason fails as the supplied variable is incorrect (Contributed by projectgheist)


Change 4233910 by Ben.Marsh

	Enable PCHs on IOS. Reduces build time by ~25%.

Change 4234176 by Ben.Marsh

	UBT: Add better messaging for modules that need to have a private PCH set. Now detects the likely PCH using the same method as legacy code and includes it as a suggestion.

Change 4234193 by Ben.Marsh

	Add the Delete command to Perforce wrapper in DotNETUtilities.

Change 4234688 by Ben.Marsh

	UBT: Simplify handling of installed/precompiled builds. Settings for whether a folder is installed/read-only or not is now stored on the RulesAssembly instance, allowing multiple things to be configured separately and stacked together (eg. engine/enterprise/project). RulesAssembly.IsReadOnly() allows determining if a flie can be modified or not and replaces many previous IsXXXInstalledCalls(), and traverses the chain of assemblies.

Change 4234711 by Ben.Marsh

	UBT: Runtime dependencies can now be copied to output directories as part of the build. When adding a runtime dependency, an optional source location can be specified to copy from. Both the source and target paths can use variables can be used as part of the path, eg. $(OutputDir), $(ModuleDir), $(PluginDir).

	Example usage (from a .build.cs file):

	RuntimeDependencies.Add("$(OutputDir)/Foo.dll", "$(PluginDir)/Source/ThirdParty/Foo.dll", StagedFileType.NonUFS);

Change 4234872 by Ben.Marsh

	Expose a flag for whether the engine is installed, to fix issues generating project files.

Change 4234929 by Ben.Marsh

	Fix null reference generating receipts when UBT makefiles are active.

Change 4235883 by Chad.Garyet

	Merging 4231245 to core

	Giving Coordinator its own sln. This should fix what 4158155 was supposed to.
	#jira UE-61955

Change 4236075 by Ben.Marsh

	CIS fix

Change 4237066 by Robert.Manuszewski

	Fix for a potential crash when terminating the engine while it's being initialized

	#jira UE-60545

Change 4237078 by Robert.Manuszewski

	The engine will no longer be resetting all linkers causing massive load times when renaming the world package when entering Play In Editor

Change 4237116 by Ben.Marsh

	Rewrite some Windows utility functions to support paths longer than MAX_PATH.

Change 4237158 by Ben.Marsh

	Add const TCHAR* overloads of FString::RemoveFromStart() and FString::RemoveFromEnd().

Change 4237159 by Ben.Marsh

	Fix FWindowsPlatformFile::GetFilenameOnDisk() support for paths longer than MAX_PATH, and simplify some of the other long path functions to avoid copying string buffers.

Change 4239050 by Ben.Marsh

	Missing file

Change 4239318 by Ben.Marsh

	Linux CIS fix.

Change 4239685 by Ben.Marsh

	Static analysis CIS fix.

Change 4240800 by Ben.Marsh

	WorkspaceTool: Include the full command line in the log for any P4 commands.

Change 4240903 by Ben.Marsh

	PR #4909: Update copyright notices to 2018 (Contributed by projectgheist)


Change 4241025 by Ben.Marsh

	UBT: Exclude mobile pipeline caches from generated project files. Causes huge slowdown when using 'Find in Files' through the IDE.

Change 4241770 by Ben.Marsh

	UBT: Include action number in parallel executor output.

	#jira UE-62032

Change 4243469 by Ben.Marsh

	TBA: Merge FAnnotatedStructuredArchiveFormatter with FStructuredArchiveFormatter. Any functions that are only implemented for text archives now have a _TextOnly suffix, and are exposed through the FStructuredArchive interface.

Change 4245723 by Robert.Manuszewski

	Fixing another creash when terminating the engine while initializing.

	#jira UE-60545

Change 4245862 by Steve.Robb

	VectorLoadFloat2(Ptr) added, which loads { Ptr[0], Ptr[1], Ptr[0], Ptr[1] } into a VectorRegister.

Change 4246412 by Robert.Manuszewski

	The warning 'Calling StaticLoadObject during PostLoad may result in hitches during streaming' will now also report the object which had the PostLoad called on it when StaticLoadObject call happened.

Change 4246612 by Ben.Marsh

	UBT: Fix spelling of "Intellisense".

Change 4249454 by Robert.Manuszewski

	Added extra checks to catch scenarios where the EDL Precache Buffer is flushed before a package header is fully read

Change 4249513 by Robert.Manuszewski

	Made sure the Async Loading Thread doesn't continue running after creating new async packages when garbage collector wants to run on the game thread

Change 4255207 by Ben.Marsh

	UGS: Add additional logging whenever a P4 command fails, and when the user is logged out.

Change 4255288 by Ben.Marsh

	PR #4921: Honor ModuleRules' bEnableExceptions flag when creating precompiled h. (Contributed by surakin)


Change 4256422 by Ben.Marsh

	UBT: Add an error if a module referenced by a plugin descriptor doesn't exist.

Change 4257385 by Robert.Manuszewski

	Creating new objects from within ForEachObjectWithOuter will now result in a fatal error as it's unsafe to change internal UObject hash tables when iterating over them.

Change 4257454 by Robert.Manuszewski

	Added the option to filter clusters listed with gc.ListClusters by objects within them.

	Usage:

	gc.ListClusters Hierachy With=ObjectName1,ObjectName2...

Change 4257526 by Robert.Manuszewski

	It's now possible to filter clusters that get logged with verbose cluster logging enabled (UE_GCCLUSTER_VERBOSE_LOGGING=1) by objects within them by specifying -DumpClustersWithObjects=ObjectName1,ObjectName2 in the command line

Change 4257822 by Ben.Marsh

	Fixes for PlatformShowcase compile errors.

Change 4258771 by Ben.Marsh

	UBT: Fix project files not being generated for foreign projects when creating .stub files.

	#jira UE-62462

Change 4258790 by Ben.Marsh

	UBT: Clean up the logic around generating project files before creating a stub IPA, so that it fails loudly if project files do not exist, and can accept target names not matching project names.

Change 4259276 by Ben.Marsh

	UBT: Make it an error if a framework doesn't exist, rather than failing silently. Also remove some remote toolchain stuff that's no longer necessary.

Change 4259280 by Ben.Marsh

	UBT: Fix embedded framework zips not being uploaded for plugins.

	#jira UE-62485

Change 4260236 by Ben.Marsh

	UBT: Fix path to generated engine project file.

Change 4260334 by Ben.Marsh

	UGS: Fix custom build steps dialog inadvertantly modifying config file settings in-place.

Change 4260361 by Ben.Marsh

	UGS: Allow for p4 login commands to fail, even though the user is logged in (due to a bad connection, etc...)

Change 4260559 by Ben.Marsh

	UGS: Update version.

Change 4261160 by Robert.Manuszewski

	MediaPlaylist will now be added to root set if the owning MediaPlayer is in the disregard for GC set (fixes GC assumption violation crash)

	#jira UE-62495

Change 4261421 by Ben.Marsh

	Force-sync files for building documentation, to fix issues with files not being updated.

	#jira UE-62413

Change 4261425 by Ben.Marsh

	UBT: Remove some leftover functions for handling the remote toolchain.

Change 4261530 by Ben.Marsh

	UBT: Speculative fix (and better error reporting) for IOS mobile provision not being found in CIS.

Change 4261611 by Ben.Marsh

	UBT: Downgrade warning to a log message, since it appears when generating project files.

Change 4261710 by Ben.Marsh

	Remove assert that GLogConsole is set; it won't be for command line utilities that don't depend on ApplicationCore.

	#jira UE-62545

Change 4261831 by Ben.Marsh

	Fix compile errors due to missing include path when hot-reloading a module from the editor. There are not necessarily source files to compile when -modulewithsuffix is specified on the command line, which was results in GeneratedCodeWildcard not being set.

	#jira UE-62463, UE-62384

Change 4262723 by Ben.Marsh

	Whitelist plugins that need to be loaded by UFE.

	#jira UE-62564

Change 4265444 by Ben.Marsh

	Fix incorrect executable name for DebugGame configurations in Xcode.

	#jira UE-62574

Change 4265892 by Ben.Marsh

	Fix incremental compile failures due to dependency checking for unity files. CachedIncludePaths was not correctly being set on file items, so dependencies were being ignored.

	#jira UE-62575, UE-62603, UE-62597

Change 4266019 by Josh.Adams

	- Fixed the CopyAction for runtime dependencies that need to be copied to different location, on non-XGE

Change 4266264 by Ben.Marsh

	Remove override for the __IPHONE_OS_VERSION_MIN_REQUIRED macro on TVOS.

	This macro is already defined by system headers (in <AvailabilityInternal.h>). Now that we support PCHs on IOS and TVOS, manually defining this macro results in it being defined three times (once for the PCH, once by AvailabilityInternal.h, and once by the force-included list of definitions for the source file being built). The errors for redefining the macro in AvailabilityInternal.h are suppressed due to it being a system header, but the error for redefining it for the source file being compiled are not.

	#jira UE-62578

Change 4266273 by Ben.Marsh

	Fixes incremental build failure when compile arguments for PCH have changed on IOS/TVOS. Compile action needs to have a dependency on PCH build action.

Change 4266614 by Graeme.Thornton

	Fix crash when cooking nativized blueprints due to removal of child cooker system.

Change 4266763 by Ben.Marsh

	Always build UnrealPak when building client targets. The ProjectParams.Pak option is not reliable, because it can be forced on later by the target platform.

	#jira UE-62584

Change 4267985 by Robert.Manuszewski

	When iterating with ForEachObjectWithouter, don't lock the entire has table but only the hash bucket that is currently being iterated

	#jira UE-62600

Change 4268558 by Robert.Manuszewski

	PurgeLegacyBlueprints will no longer be called from within ForEachObjectWithOuter is it renames objects that reside in hash tables that are being iterated over which may lead to undefined behavior.

	#jira UE-62600

Change 4269011 by Chad.Garyet

	- Fixing Wildcard match issue, the change to ugsapi sends projects as //Depot/Stream instead of //Depot/Stream/
	  Wildcard match was only substringing to 3 chars.
	- Checking in the change a while back that increases the number of queried jobs up to 432 based on some maths from Bob about how many builds we want to grab
	Published to ugsapi server 8/8/17
	#jira none

Change 4270788 by Ben.Marsh

	Fix IOS provisioning data being using when remote compiling on TVOS.

	#jira UE-62705

Change 4271916 by Ben.Marsh

	Tag the XGEControlWorker executable as a build product after compiling SCW, to make sure it's included in the UGS zip file.

Change 4271934 by Ben.Marsh

	Upload all static libraries in plugin folders as part of remote builds.

	#jira UE-62694

Change 4273368 by Ben.Marsh

	Fix Slate dependencies not being enumerated, and rules assembly not being rebuilt when building remotely.

	#jira UE-62705

Change 4274049 by Ben.Marsh

	Always parse the team UUID out of the mobile provision when doing a remote compile. The provision installed on the remote Mac (and selected for signing) may be different.

	#jira UE-62751

Change 4274823 by Ben.Marsh

	Add the -VersionCookedContent argument to disable the -unversioned parameter on the cooker command line.

Change 4275838 by Ben.Marsh

	Fix BuildVersion string not being passed through from <SetVersion> task. Also add a -BuildVersion command line argument to UBT to override it for a particular build.

Change 4275913 by Ben.Marsh

	Add a dummy exported symbol to the XGEController module, to fix build errors due to missing .lib file when it's built with WITH_XGE_CONTROLLER = 0.

Change 4284161 by Ben.Marsh

	Allow mirroring Oodle files to remote Mac.

Change 4074774 by Steve.Robb

	Vast simplification of TFunction, making it smaller in footprint, easier to follow and extend, and more correct.
	TUniqueFunction added, which is a move-only TFunction which can hold move-only functors.
	Fix for UWidgetBlueprint::ForEachSourceWidget() which should never have compiled but did.
	FFunctionGraphTask and TFuture<> updated to use TUniqueFunction to make them more general.
	TArray::HeapPop() made to work with move-only types.

Change 4082591 by Ben.Marsh

	Move the Log class from UBT to DotNetUtilities.

Change 4083236 by Ben.Marsh

	Add a Log.WriteException() method to dump an exception message to the console (and write the exception trace to the log)

Change 4084107 by Ben.Marsh

	UAT: Remove the unused -SkipHeader argument to UE4Build.

Change 4089771 by Steve.Robb

	GitHub #4743 : modified VirtualAlloc function flag

	https://blogs.msdn.microsoft.com/oldnewthing/20151008-00/?p=91411

Change 4091456 by Steve.Robb

	Unification of all platforms' FMath::CountTrailingZeros() and FMath::CountLeadingZeros() for both 32-bit and 64-bit.

Change 4156437 by Ben.Marsh

	Lots and lots of fixes compiling for Clang on Windows.

	Editor now compiles cleanly without warnings, but crashes on startup due to error in intrinsics test. Disabling that runs further, but crashes accessing freed memory. Switching to the ANSI allocator runs further, but crashes in Slate after the splash screen and before the editor window opens. // TODO!

	* Switching between Clang/ICL/VS2015/VS2017 is now supported through the same mechanism as switching Visual Studio versions, without requiring any source level changes. To use Clang, set WindowsPlatform.Compiler = WindowsCompiler.Clang from a .target.cs file, or set <WindowsPlatform><Compiler>Clang</Compiler></WindowsPlatform> from BuildConfiguration.xml. To pick a specific toolchain version, set WindowsPlatform.CompilerVersion.
	* Clang is now supported through AutoSDKs; will be added to CIS.
	* The Samples/Sandbox/Clang project forces Clang to be used from its target.cs file, and allows easily building all editor modules and plugins with Clang on Windows.
	* UnrealMathSSE intrinsics have been re-enabled for Clang due to missing functions from the UnrealMathFPU implementation, but causes failure in tests at startup.
	* SSE4_CRC32() is disabled in D3D12Pipelinestate.cpp, since intrinsics are only allowed if enabled for the whole target (rather than being used in specific functions due to runtime checks)

Change 4157389 by Ben.Marsh

	Few more fixes for compiling the editor with Clang.

Change 4183911 by Ben.Marsh

	Fixes to support incremental linking on Windows. Does not seem to have any net benefit right now; may improve once minimal rebuild is enabled.

	* Incremental linking no longer forces PDB files to be enabled for source files.
	* Actions can specify specific files to be deleted before each build. Code to forcibly delete PDB files has been moved to the MSVC toolchain.
	* Unused libraries produced by the cross-referenced link are no longer added as build products, since (a) deleting them breaks dependency checking for incremental linking and causes a full link, and (b) not deleting them breaks UBT dependency checking and causes actions to be run over and over again.
	* Icon update is disabled for Windows when incremental linking is enabled.
	* Removed rarely-used setting to always delete produced items before each build.

Change 4184311 by Ben.Marsh

	UGS: Added a dialog which shows all the required platform SDKs for a branch, linked from the status panel in UGS.

	The llist is configured via the UGS config file submitted to Engine/Programs/UnrealGameSync/UnrealGameSync.ini (and may be overridden by the project config file if necessary):

	    [Default]
	    ; Set this to a network share which contains the SDK installers for your site
	    SdkInstallerDir=

	    ; All the required SDKs for the current version of the engine
	    +SdkInfo=(Category="Android", Description="NDK r21", Browse="$(SdkInstallerDir)\\Android")
	    +SdkInfo=(Category="Windows", Description="Visual Studio 2017")
	    +SdkInfo=(Category="Windows", Description="Visual C++ Toolchain 14.13.26128")
	    +SdkInfo=(Category="Windows", Description="Windows SDK 10.0.16299.0")

	Similar entries for console platforms are added in console subdirectories. Each entry may contain an Install="Foo.exe" and/or Browse="C:\Foo" style attribute, specifying the path to an installer to run or directory to open in explorer respectively.

	The SdkInstallerDir setting is used as a base directory for the default installers, seen above for Android. Licensees may override this with a network path specific to the site that UGS is being deployed to (either in this file, in a project specific config file, or in a Engine/Programs/UnrealGameSync/NotForLicensees/UnrealGameSync.ini file).

Change 4200452 by Ben.Marsh

	UBT: Change DebugGame configurations to output a separate executable rather than requiring a -Debug argument at runtime. Previous behavior was a common source of errors.

	Engine modules are still shared between Development and DebugGame, but the launch module sets a flag in Core on startup indicating the game configuration.

Change 4206189 by Ben.Marsh

	UBT: Simplify logic for precompiling binaries.

	* Target no longer has separate list of "precompile only" binaries or modules. New -AllModules option allows adding every module to a target, which can be used with -Precompile and -NoLink to precompile object files for monolithic builds.
	* Precompiled file lists have been removed from target receipts.
	* The manifest now includes all generated headers and precompiled files when run with the -Precompile option.
	* Separate -DependencyList=Foo.txt has been added to write a list of all dependencies required to use precompiled binaries. This file list can be read using the <Tag> task in buildgraph.

Change 4215466 by Ben.Marsh

	UBT: Remove indirect calls to determine extensions for object files and precompiled headers. The toolchain knows the correct convention for the platform.

Change 4215975 by Ben.Marsh

	UBT: Remove telemetry code. This has never proved useful for analyzing performance due to the number of incidental factors that affect build times (eg. number of files being compiled).

Change 4220154 by Ben.Marsh

	Move text-only implementations of FOutputDeviceError back into Core, so we can build command-line applications that don't depend on ApplicationCore.

Change 4224708 by Ben.Marsh

	Add a bCompileAgainstApplicationCore setting to the target rules, which allows compiling out references to the ApplicationCore module (which should only be necessary for applications with a GUI). Removed ApplicationCore from several engine tools and utilities.

Change 4224958 by Ben.Marsh

	Remove CoreMinimal.h includes from Core.

Change 4229059 by Ben.Marsh

	UBT: Remove the UEBuildPlatform.ShouldNotBuildEditor() hook for target platforms. We shouldn't be modifying a target's build environment to disable the editor; it is invalid to build the editor for these target platforms at all, and this is already enforced by the GetSupportedPlatforms() function.

Change 4230508 by Ben.Marsh

	Fixup precompiled header setting for samples and games.

Change 4231457 by Ben.Marsh

	Fix exceptions in log messages having trailing newlines.

Change 4232406 by Ben.Marsh

	UBT: Always force include a PCH for generated code if there's one set; the code may depend on it to compile.

Change 4234177 by Ben.Marsh

	Set up private PCH files everywhere that previously used them.

Change 4235973 by Ben.Marsh

	Change FPlatformMisc::GetEnvironmentVariable() to return an FString() rather than requiring a fixed size buffer to be passed in. Removes references to MAX_PATH.

Change 4238842 by Ben.Marsh

	Add support for paths longer than MAX_PATH in the editor. Requires Windows 10 version 1607, and the functionality to be enabled via a registry key or group policy (see https://docs.microsoft.com/en-us/windows/desktop/FileIO/naming-a-file).

	Only a subset of Win32 functions support long paths (executables can only be started from paths shorter than MAX_PATH, for example).

	* Added a FPlatformMisc::GetMaxPathLength() function to return the maximum length of a path on the current system. On Windows, this returns a different value for systems with long paths enabled to those without.
	* The MAX_PATH define is no longer set by non-Windows platforms. Instead, there is a MAC_MAX_PATH, UNIX_MAX_PATH, etc... for any platform-specific code that still relies on the previous macro.
	* The MAX_UNREAL_FILENAME_LENGTH macro has been renamed to MAX_UNREAL_FILENAME_LENGTH_DEPRECATED
	* The PLATFORM_MAX_FILEPATH_LENGTH macro has been renamed to PLATFORM_MAX_FILEPATH_LENGTH_DEPRECATED.
	* Removed custom resource files for programs, since they are just copies of the base UE4 one (which is used by default anyway). The base UE4 manifest declares support for long paths.
	* Fix 512 character maximum length on editor commands.

	260 character limit remains in place for cooking at the moment (see ContentBrowserUtils.h), until C# staging code supports long paths.

Change 4255042 by Ben.Marsh

	UBT: Remote compilation now uploads the entire workspace to the remote Mac and executes a separate remote instance of UBT rather than synchronizing individual actions. This makes the remote compile codepath much simpler, and removes a lot of special cases that exist to support it previously.

	The list of files to be transferred to the remote are listed as rsync filter rules in Engine/Build/Rsync/RsyncEngine.txt and RsyncProject.txt, which are applied to the root engine directory and project directory respectively. Projects that need to customize which files are uploaded can add their own <ProjectDir>/Build/Rsync/RsyncProject.txt file, which will be included in the filter before the default version.

Change 4260567 by Ben.Marsh

	UAT: Rename CommandUtils.Log to CommandUtils.LogInformation, to avoid conflicts with the underlying Tools.DotNETCommon.Log class.

#rb none

#ROBOMERGE-OWNER: jason.bestimt
#ROBOMERGE-SOURCE: CL 4285673 in //UE4/Main/...
#ROBOMERGE-BOT: DEVVR (Main -> Dev-VR)

[CL 4287799 by jason bestimt in Dev-VR branch]
2018-08-15 11:23:10 -04:00

6062 lines
212 KiB
C++
Raw Blame History

// Copyright 1998-2018 Epic Games, Inc. All Rights Reserved.
#include "UnrealHeaderTool.h"
#include "CoreMinimal.h"
#include "Misc/AssertionMacros.h"
#include "HAL/PlatformProcess.h"
#include "Templates/UnrealTemplate.h"
#include "Math/UnrealMathUtility.h"
#include "Containers/UnrealString.h"
#include "UObject/NameTypes.h"
#include "Logging/LogMacros.h"
#include "CoreGlobals.h"
#include "HAL/FileManager.h"
#include "Misc/Parse.h"
#include "Misc/CoreMisc.h"
#include "Misc/CommandLine.h"
#include "Misc/FileHelper.h"
#include "Misc/Paths.h"
#include "Delegates/Delegate.h"
#include "Misc/Guid.h"
#include "Misc/ConfigCacheIni.h"
#include "Misc/FeedbackContext.h"
#include "Misc/OutputDeviceNull.h"
#include "UObject/ErrorException.h"
#include "UObject/Script.h"
#include "UObject/ObjectMacros.h"
#include "UObject/UObjectGlobals.h"
#include "UObject/Class.h"
#include "UObject/Package.h"
#include "UObject/MetaData.h"
#include "UObject/Interface.h"
#include "UObject/UnrealType.h"
#include "UObject/TextProperty.h"
#include "Misc/PackageName.h"
#include "UnrealHeaderToolGlobals.h"
#include "ParserClass.h"
#include "Scope.h"
#include "HeaderProvider.h"
#include "GeneratedCodeVersion.h"
#include "SimplifiedParsingClassInfo.h"
#include "UnrealSourceFile.h"
#include "ParserHelper.h"
#include "Classes.h"
#include "NativeClassExporter.h"
#include "ProfilingDebugging/ScopedTimers.h"
#include "HeaderParser.h"
#include "IScriptGeneratorPluginInterface.h"
#include "Manifest.h"
#include "StringUtils.h"
#include "Features/IModularFeatures.h"
#include "Algo/Copy.h"
#include "Algo/Sort.h"
#include "Algo/Reverse.h"
#include "Misc/ScopeExit.h"
#include "UnrealTypeDefinitionInfo.h"
#include "FileLineException.h"
/////////////////////////////////////////////////////
// Globals
FManifest GManifest;
double GMacroizeTime = 0.0;
static TArray<FString> ChangeMessages;
static bool bWriteContents = false;
static bool bVerifyContents = false;
static TSharedRef<FUnrealSourceFile> PerformInitialParseOnHeader(UPackage* InParent, const TCHAR* FileName, EObjectFlags Flags, const TCHAR* Buffer);
FCompilerMetadataManager GScriptHelper;
/** C++ name lookup helper */
FNameLookupCPP NameLookupCPP;
namespace
{
static FString AsTEXT(FString InStr)
{
return FString::Printf(TEXT("TEXT(\"%s\")"), *InStr);
}
const TCHAR HeaderCopyright[] =
TEXT("// Copyright 1998-2018 Epic Games, Inc. All Rights Reserved.\r\n")
TEXT("/*===========================================================================\r\n")
TEXT("\tGenerated code exported from UnrealHeaderTool.\r\n")
TEXT("\tDO NOT modify this manually! Edit the corresponding .h files instead!\r\n")
TEXT("===========================================================================*/\r\n")
LINE_TERMINATOR;
const TCHAR RequiredCPPIncludes[] = TEXT("#include \"UObject/GeneratedCppIncludes.h\"") LINE_TERMINATOR;
// A struct which emits #if and #endif blocks as appropriate when invoked.
struct FMacroBlockEmitter
{
explicit FMacroBlockEmitter(FOutputDevice& InOutput, const TCHAR* InMacro)
: Output(InOutput)
, bEmittedIf(false)
, Macro(InMacro)
{
}
~FMacroBlockEmitter()
{
if (bEmittedIf)
{
Output.Logf(TEXT("#endif // %s\r\n"), Macro);
}
}
void operator()(bool bInBlock)
{
if (!bEmittedIf && bInBlock)
{
Output.Logf(TEXT("#if %s\r\n"), Macro);
bEmittedIf = true;
}
else if (bEmittedIf && !bInBlock)
{
Output.Logf(TEXT("#endif // %s\r\n"), Macro);
bEmittedIf = false;
}
}
FMacroBlockEmitter(const FMacroBlockEmitter&) = delete;
FMacroBlockEmitter& operator=(const FMacroBlockEmitter&) = delete;
private:
FOutputDevice& Output;
bool bEmittedIf;
const TCHAR* Macro;
};
/** Guard that should be put at the start editor only generated code */
const TCHAR BeginEditorOnlyGuard[] = TEXT("#if WITH_EDITOR") LINE_TERMINATOR;
/** Guard that should be put at the end of editor only generated code */
const TCHAR EndEditorOnlyGuard[] = TEXT("#endif //WITH_EDITOR") LINE_TERMINATOR;
}
#define BEGIN_WRAP_EDITOR_ONLY(DoWrap) DoWrap ? BeginEditorOnlyGuard : TEXT("")
#define END_WRAP_EDITOR_ONLY(DoWrap) DoWrap ? EndEditorOnlyGuard : TEXT("")
/**
* Finds exact match of Identifier in string. Returns nullptr if none is found.
*
* @param StringBegin Start of string to search.
* @param StringEnd End of string to search.
* @param Identifier Identifier to find.
* @return Pointer to Identifier match within string. nullptr if none found.
*/
const TCHAR* FindIdentifierExactMatch(const TCHAR* StringBegin, const TCHAR* StringEnd, const FString& Identifier)
{
int32 StringLen = StringEnd - StringBegin;
// Check for exact match first.
if (FCString::Strncmp(StringBegin, *Identifier, StringLen) == 0)
{
return StringBegin;
}
int32 FindLen = Identifier.Len();
const TCHAR* StringToSearch = StringBegin;
for (;;)
{
const TCHAR* IdentifierStart = FCString::Strstr(StringToSearch, *Identifier);
if (IdentifierStart == nullptr)
{
// Not found.
return nullptr;
}
if (IdentifierStart > StringEnd || IdentifierStart + FindLen + 1 > StringEnd)
{
// Found match is out of string range.
return nullptr;
}
if (IdentifierStart == StringBegin && !FChar::IsIdentifier(*(IdentifierStart + FindLen + 1)))
{
// Found match is at the beginning of string.
return IdentifierStart;
}
if (IdentifierStart + FindLen == StringEnd && !FChar::IsIdentifier(*(IdentifierStart - 1)))
{
// Found match ends with end of string.
return IdentifierStart;
}
if (!FChar::IsIdentifier(*(IdentifierStart + FindLen)) && !FChar::IsIdentifier(*(IdentifierStart - 1)))
{
// Found match is in the middle of string
return IdentifierStart;
}
// Didn't find exact match, nor got to end of search string. Keep on searching.
StringToSearch = IdentifierStart + FindLen;
}
// We should never get here.
checkNoEntry();
return nullptr;
}
/**
* Finds exact match of Identifier in string. Returns nullptr if none is found.
*
* @param String String to search.
* @param Identifier Identifier to find.
* @return Index to Identifier match within String. INDEX_NONE if none found.
*/
int32 FindIdentifierExactMatch(const FString& String, const FString& Identifier)
{
const TCHAR* IdentifierPtr = FindIdentifierExactMatch(*String, *String + String.Len(), Identifier);
if (IdentifierPtr == nullptr)
{
return INDEX_NONE;
}
return IdentifierPtr - *String;
}
/**
* Checks if exact match of Identifier is in String.
*
* @param StringBegin Start of string to search.
* @param StringEnd End of string to search.
* @param Identifier Identifier to find.
* @return true if Identifier is within string, false otherwise.
*/
bool HasIdentifierExactMatch(const TCHAR* StringBegin, const TCHAR* StringEnd, const FString& Find)
{
return FindIdentifierExactMatch(StringBegin, StringEnd, Find) != nullptr;
}
/**
* Checks if exact match of Identifier is in String.
*
* @param String String to search.
* @param Identifier Identifier to find.
* @return true if Identifier is within String, false otherwise.
*/
bool HasIdentifierExactMatch(const FString &String, const FString& Identifier)
{
return FindIdentifierExactMatch(String, Identifier) != INDEX_NONE;
}
void ConvertToBuildIncludePath(const UPackage* Package, FString& LocalPath)
{
FPaths::MakePathRelativeTo(LocalPath, *GPackageToManifestModuleMap.FindChecked(Package)->IncludeBase);
}
/**
* Helper function for finding the location of a package
* This is required as source now lives in several possible directories
*
* @param InPackage The name of the package of interest
* @param OutLocation The location of the given package, if found
* @param OutHeaderLocation The directory where generated headers should be placed
*
* @return bool true if found, false if not
*/
bool FindPackageLocation(const TCHAR* InPackage, FString& OutLocation, FString& OutHeaderLocation)
{
// Mapping of processed packages to their locations
// An empty location string means it was processed but not found
static TMap<FString, FManifestModule*> CheckedPackageList;
FString CheckPackage(InPackage);
FManifestModule* ModuleInfoPtr = CheckedPackageList.FindRef(CheckPackage);
if (!ModuleInfoPtr)
{
FManifestModule* ModuleInfoPtr2 = GManifest.Modules.FindByPredicate([&](FManifestModule& Module) { return Module.Name == CheckPackage; });
if (ModuleInfoPtr2 && IFileManager::Get().DirectoryExists(*ModuleInfoPtr2->BaseDirectory))
{
ModuleInfoPtr = ModuleInfoPtr2;
CheckedPackageList.Add(CheckPackage, ModuleInfoPtr);
}
}
if (!ModuleInfoPtr)
{
return false;
}
OutLocation = ModuleInfoPtr->BaseDirectory;
OutHeaderLocation = ModuleInfoPtr->GeneratedIncludeDirectory;
return true;
}
FString Macroize(const TCHAR* MacroName, const TCHAR* StringToMacroize)
{
FScopedDurationTimer Tracker(GMacroizeTime);
FString Result = StringToMacroize;
if (Result.Len())
{
Result.ReplaceInline(TEXT("\r\n"), TEXT("\n"), ESearchCase::CaseSensitive);
Result.ReplaceInline(TEXT("\n"), TEXT(" \\\n"), ESearchCase::CaseSensitive);
checkSlow(Result.EndsWith(TEXT(" \\\n"), ESearchCase::CaseSensitive));
if (Result.Len() >= 3)
{
for (int32 Index = Result.Len() - 3; Index < Result.Len(); ++Index)
{
Result[Index] = TEXT('\n');
}
}
else
{
Result = TEXT("\n\n\n");
}
Result.ReplaceInline(TEXT("\n"), TEXT("\r\n"), ESearchCase::CaseSensitive);
}
return FString::Printf(TEXT("#define %s%s\r\n"), MacroName, Result.Len() ? TEXT(" \\") : TEXT("")) + Result;
}
/** Generates a CRC tag string for the specified field */
static FString GetGeneratedCodeCRCTag(UField* Field)
{
FString Tag;
const uint32* FieldCrc = GGeneratedCodeCRCs.Find(Field);
if (FieldCrc)
{
Tag = FString::Printf(TEXT(" // %u"), *FieldCrc);
}
return Tag;
}
struct FParmsAndReturnProperties
{
FParmsAndReturnProperties()
: Return(NULL)
{
}
bool HasParms() const
{
return Parms.Num() || Return;
}
TArray<UProperty*> Parms;
UProperty* Return;
};
/**
* Get parameters and return type for a given function.
*
* @param Function The function to get the parameters for.
* @return An aggregate containing the parameters and return type of that function.
*/
FParmsAndReturnProperties GetFunctionParmsAndReturn(UFunction* Function)
{
FParmsAndReturnProperties Result;
for ( TFieldIterator<UProperty> It(Function); It; ++It)
{
UProperty* Field = *It;
if ((It->PropertyFlags & (CPF_Parm | CPF_ReturnParm)) == CPF_Parm)
{
Result.Parms.Add(Field);
}
else if (It->PropertyFlags & CPF_ReturnParm)
{
Result.Return = Field;
}
}
return Result;
}
/**
* Determines whether the glue version of the specified native function
* should be exported
*
* @param Function the function to check
* @return true if the glue version of the function should be exported.
*/
bool ShouldExportUFunction(UFunction* Function)
{
// export any script stubs for native functions declared in interface classes
bool bIsBlueprintNativeEvent = (Function->FunctionFlags & FUNC_BlueprintEvent) && (Function->FunctionFlags & FUNC_Native);
if (Function->GetOwnerClass()->HasAnyClassFlags(CLASS_Interface) && !bIsBlueprintNativeEvent)
{
return true;
}
// always export if the function is static
if (Function->FunctionFlags & FUNC_Static)
{
return true;
}
// don't export the function if this is not the original declaration and there is
// at least one parent version of the function that is declared native
for (UFunction* ParentFunction = Function->GetSuperFunction(); ParentFunction; ParentFunction = ParentFunction->GetSuperFunction())
{
if (ParentFunction->FunctionFlags & FUNC_Native)
{
return false;
}
}
return true;
}
FString CreateLiteralString(const FString& Str)
{
FString Result;
// Have a reasonable guess at reserving the right size
Result.Reserve(Str.Len() + 8);
Result += TEXT("TEXT(\"");
bool bPreviousCharacterWasHex = false;
const TCHAR* Ptr = *Str;
while (TCHAR Ch = *Ptr++)
{
switch (Ch)
{
case TEXT('\r'): continue;
case TEXT('\n'): Result += TEXT("\\n"); bPreviousCharacterWasHex = false; break;
case TEXT('\\'): Result += TEXT("\\\\"); bPreviousCharacterWasHex = false; break;
case TEXT('\"'): Result += TEXT("\\\""); bPreviousCharacterWasHex = false; break;
default:
if (Ch < 31 || Ch >= 128)
{
Result += FString::Printf(TEXT("\\x%04x"), Ch);
bPreviousCharacterWasHex = true;
}
else
{
// We close and open the literal (with TEXT) here in order to ensure that successive hex characters aren't appended to the hex sequence, causing a different number
if (bPreviousCharacterWasHex && FCharWide::IsHexDigit(Ch))
{
Result += "\")TEXT(\"";
}
bPreviousCharacterWasHex = false;
Result += Ch;
}
break;
}
}
Result += TEXT("\")");
return Result;
}
FString CreateUTF8LiteralString(const FString& Str)
{
FString Result;
// Have a reasonable guess at reserving the right size
Result.Reserve(Str.Len() + 2);
Result += TEXT("\"");
bool bPreviousCharacterWasHex = false;
FTCHARToUTF8 StrUTF8(*Str);
const char* Ptr = StrUTF8.Get();
while (char Ch = *Ptr++)
{
switch (Ch)
{
case '\r': continue;
case '\n': Result += TEXT("\\n"); bPreviousCharacterWasHex = false; break;
case '\\': Result += TEXT("\\\\"); bPreviousCharacterWasHex = false; break;
case '\"': Result += TEXT("\\\""); bPreviousCharacterWasHex = false; break;
default:
if (Ch < 31)
{
Result += FString::Printf(TEXT("\\x%02x"), (uint8)Ch);
bPreviousCharacterWasHex = true;
}
else
{
// We close and open the literal here in order to ensure that successive hex characters aren't appended to the hex sequence, causing a different number
if (bPreviousCharacterWasHex && FCharWide::IsHexDigit(Ch))
{
Result += "\"\"";
}
bPreviousCharacterWasHex = false;
Result += Ch;
}
break;
}
}
Result += TEXT("\"");
return Result;
}
// Returns the METADATA_PARAMS for this output
static FString OutputMetaDataCodeForObject(FOutputDevice& OutDeclaration, FOutputDevice& Out, const UObject* Object, const TCHAR* MetaDataBlockName, const TCHAR* DeclSpaces, const TCHAR* Spaces)
{
TMap<FName, FString>* MetaData = UMetaData::GetMapForObject(Object);
FUHTStringBuilder MetaDataOutput;
if (MetaData && MetaData->Num())
{
typedef TKeyValuePair<FName, FString> KVPType;
TArray<KVPType> KVPs;
for (TPair<FName, FString>& KVP : *MetaData)
{
KVPs.Add(KVPType(KVP.Key, KVP.Value));
}
// We sort the metadata here so that we can get consistent output across multiple runs
// even when metadata is added in a different order
Algo::SortBy(KVPs, &KVPType::Key);
for (const KVPType& KVP : KVPs)
{
MetaDataOutput.Logf(TEXT("%s\t{ %s, %s },\r\n"), Spaces, *CreateUTF8LiteralString(KVP.Key.ToString()), *CreateUTF8LiteralString(KVP.Value));
}
}
FString Result;
if (MetaDataOutput.Len())
{
FString MetaDataBlockNameWithoutScope = MetaDataBlockName;
int32 ScopeIndex = MetaDataBlockNameWithoutScope.Find(TEXT("::"), ESearchCase::CaseSensitive);
if (ScopeIndex != INDEX_NONE)
{
MetaDataBlockNameWithoutScope = MetaDataBlockNameWithoutScope.RightChop(ScopeIndex + 2);
}
OutDeclaration.Log (TEXT("#if WITH_METADATA\r\n"));
OutDeclaration.Logf(TEXT("%sstatic const UE4CodeGen_Private::FMetaDataPairParam %s[];\r\n"), DeclSpaces, *MetaDataBlockNameWithoutScope);
OutDeclaration.Log (TEXT("#endif\r\n"));
Out.Log (TEXT("#if WITH_METADATA\r\n"));
Out.Logf(TEXT("%sconst UE4CodeGen_Private::FMetaDataPairParam %s[] = {\r\n"), Spaces, MetaDataBlockName);
Out.Log (*MetaDataOutput);
Out.Logf(TEXT("%s};\r\n"), Spaces);
Out.Log (TEXT("#endif\r\n"));
Result = FString::Printf(TEXT("METADATA_PARAMS(%s, ARRAY_COUNT(%s))"), MetaDataBlockName, MetaDataBlockName);
}
else
{
Result = TEXT("METADATA_PARAMS(nullptr, 0)");
}
return Result;
}
void FNativeClassHeaderGenerator::ExportProperties(FOutputDevice& Out, UStruct* Struct, int32 TextIndent)
{
UProperty* Previous = NULL;
UProperty* PreviousNonEditorOnly = NULL;
UProperty* LastInSuper = NULL;
UStruct* InheritanceSuper = Struct->GetInheritanceSuper();
// Find last property in the lowest base class that has any properties
UStruct* CurrentSuper = InheritanceSuper;
while (LastInSuper == NULL && CurrentSuper)
{
for( TFieldIterator<UProperty> It(CurrentSuper,EFieldIteratorFlags::ExcludeSuper); It; ++It )
{
UProperty* Current = *It;
// Disregard properties with 0 size like functions.
if( It.GetStruct() == CurrentSuper && Current->ElementSize )
{
LastInSuper = Current;
}
}
// go up a layer in the hierarchy
CurrentSuper = CurrentSuper->GetSuperStruct();
}
FMacroBlockEmitter WithEditorOnlyData(Out, TEXT("WITH_EDITORONLY_DATA"));
// Iterate over all properties in this struct.
for( TFieldIterator<UProperty> It(Struct, EFieldIteratorFlags::ExcludeSuper); It; ++It )
{
UProperty* Current = *It;
// Disregard properties with 0 size like functions.
if (It.GetStruct() == Struct)
{
WithEditorOnlyData(Current->IsEditorOnlyProperty());
// Export property specifiers
// Indent code and export CPP text.
{
FUHTStringBuilder JustPropertyDecl;
const FString* Dim = GArrayDimensions.Find(Current);
Current->ExportCppDeclaration( JustPropertyDecl, EExportedDeclaration::Member, Dim ? **Dim : NULL);
ApplyAlternatePropertyExportText(*It, JustPropertyDecl, EExportingState::TypeEraseDelegates);
// Finish up line.
Out.Logf(TEXT("%s%s;\r\n"), FCString::Tab(TextIndent + 1), *JustPropertyDecl);
}
LastInSuper = NULL;
Previous = Current;
if (!Current->IsEditorOnlyProperty())
{
PreviousNonEditorOnly = Current;
}
}
}
}
/**
* Class that is representing a type singleton.
*/
struct FTypeSingleton
{
public:
/** Constructor */
FTypeSingleton(FString InName, UField* InType)
: Name(MoveTemp(InName)), Type(InType) {}
/**
* Gets this singleton's name.
*/
const FString& GetName() const
{
return Name;
}
/**
* Gets this singleton's extern declaration.
*/
const FString& GetExternDecl() const
{
if (ExternDecl.IsEmpty())
{
ExternDecl = GenerateExternDecl(Type, GetName());
}
return ExternDecl;
}
private:
/**
* Extern declaration generator.
*/
static FString GenerateExternDecl(UField* InType, const FString& InName)
{
const TCHAR* TypeStr = nullptr;
if (InType->GetClass() == UClass::StaticClass())
{
TypeStr = TEXT("UClass");
}
else if (InType->GetClass() == UFunction::StaticClass() || InType->GetClass() == UDelegateFunction::StaticClass())
{
TypeStr = TEXT("UFunction");
}
else if (InType->GetClass() == UScriptStruct::StaticClass())
{
TypeStr = TEXT("UScriptStruct");
}
else if (InType->GetClass() == UEnum::StaticClass())
{
TypeStr = TEXT("UEnum");
}
else
{
FError::Throwf(TEXT("Unsupported item type to get extern for."));
}
return FString::Printf(
TEXT("\t%s_API %s* %s;\r\n"),
*FPackageName::GetShortName(InType->GetOutermost()).ToUpper(),
TypeStr,
*InName
);
}
/** Field that stores this singleton name. */
FString Name;
/** Cached field that stores this singleton extern declaration. */
mutable FString ExternDecl;
/** Type of the singleton */
UField* Type;
};
/**
* Class that represents type singleton cache.
*/
class FTypeSingletonCache
{
public:
/**
* Gets type singleton from cache.
*
* @param Type Singleton type.
* @param bRequiresValidObject Does it require a valid object?
*/
static const FTypeSingleton& Get(UField* Type, bool bRequiresValidObject = true)
{
static TMap<FTypeSingletonCacheKey, FTypeSingleton> CacheData;
FTypeSingletonCacheKey Key(Type, bRequiresValidObject);
if (FTypeSingleton* SingletonPtr = CacheData.Find(Key))
{
return *SingletonPtr;
}
return CacheData.Add(Key,
FTypeSingleton(GenerateSingletonName(Type, bRequiresValidObject), Type)
);
}
private:
/**
* Private type that represents cache map key.
*/
struct FTypeSingletonCacheKey
{
/** FTypeSingleton type */
UField* Type;
/** If this type singleton requires valid object. */
bool bRequiresValidObject;
/* Constructor */
FTypeSingletonCacheKey(UField* InType, bool bInRequiresValidObject)
: Type(InType), bRequiresValidObject(bInRequiresValidObject)
{}
/**
* Equality operator.
*
* @param Other Other key.
*
* @returns True if this is equal to Other. False otherwise.
*/
bool operator==(const FTypeSingletonCacheKey& Other) const
{
return Type == Other.Type && bRequiresValidObject == Other.bRequiresValidObject;
}
/**
* Gets hash value for this object.
*/
friend uint32 GetTypeHash(const FTypeSingletonCacheKey& Object)
{
return HashCombine(
GetTypeHash(Object.Type),
GetTypeHash(Object.bRequiresValidObject)
);
}
};
/**
* Generates singleton name.
*/
static FString GenerateSingletonName(UField* Item, bool bRequiresValidObject)
{
check(Item);
FString Suffix;
if (UClass* ItemClass = Cast<UClass>(Item))
{
if (!bRequiresValidObject && !ItemClass->HasAllClassFlags(CLASS_Intrinsic))
{
Suffix = TEXT("_NoRegister");
}
}
FString Result;
for (UObject* Outer = Item; Outer; Outer = Outer->GetOuter())
{
if (!Result.IsEmpty())
{
Result = TEXT("_") + Result;
}
if (Cast<UClass>(Outer) || Cast<UScriptStruct>(Outer))
{
FString OuterName = NameLookupCPP.GetNameCPP(Cast<UStruct>(Outer));
Result = OuterName + Result;
// Structs can also have UPackage outer.
if (Cast<UClass>(Outer) || Cast<UPackage>(Outer->GetOuter()))
{
break;
}
}
else
{
Result = Outer->GetName() + Result;
}
}
// Can't use long package names in function names.
if (Result.StartsWith(TEXT("/Script/"), ESearchCase::CaseSensitive))
{
Result = FPackageName::GetShortName(Result);
}
FString ClassString = NameLookupCPP.GetNameCPP(Item->GetClass());
return FString(TEXT("Z_Construct_")) + ClassString + TEXT("_") + Result + Suffix + TEXT("()");
}
};
FString FNativeClassHeaderGenerator::GetSingletonName(UField* Item, bool bRequiresValidObject)
{
const FTypeSingleton& Cache = FTypeSingletonCache::Get(Item, bRequiresValidObject);
FString Result = Cache.GetName();
if (UniqueCrossModuleReferences)
{
const FString& Extern = Cache.GetExternDecl();
UniqueCrossModuleReferences->Add(*Extern);
}
return Result;
}
FString FNativeClassHeaderGenerator::GetSingletonNameFuncAddr(UField* Item, bool bRequiresValidObject)
{
FString Result;
if (!Item)
{
Result = TEXT("nullptr");
}
else
{
Result = this->GetSingletonName(Item, bRequiresValidObject).LeftChop(2);
}
return Result;
}
FString FNativeClassHeaderGenerator::GetOverriddenName(const UField* Item)
{
const FString& OverriddenName = Item->GetMetaData(TEXT("OverrideNativeName"));
if (!OverriddenName.IsEmpty())
{
return OverriddenName.ReplaceCharWithEscapedChar();
}
return Item->GetName();
}
FName FNativeClassHeaderGenerator::GetOverriddenFName(const UField* Item)
{
FString OverriddenName = Item->GetMetaData(TEXT("OverrideNativeName"));
if (!OverriddenName.IsEmpty())
{
return FName(*OverriddenName);
}
return Item->GetFName();
}
FString FNativeClassHeaderGenerator::GetOverriddenPathName(const UField* Item)
{
return FString::Printf(TEXT("%s.%s"), *FClass::GetTypePackageName(Item), *GetOverriddenName(Item));
}
FString FNativeClassHeaderGenerator::GetOverriddenNameForLiteral(const UField* Item)
{
const FString& OverriddenName = Item->GetMetaData(TEXT("OverrideNativeName"));
if (!OverriddenName.IsEmpty())
{
return TEXT("TEXT(\"") + OverriddenName + TEXT("\")");
}
return TEXT("\"") + Item->GetName() + TEXT("\"");
}
FString FNativeClassHeaderGenerator::GetUTF8OverriddenNameForLiteral(const UField* Item)
{
const FString& OverriddenName = Item->GetMetaData(TEXT("OverrideNativeName"));
if (!OverriddenName.IsEmpty())
{
return CreateUTF8LiteralString(OverriddenName);
}
return CreateUTF8LiteralString(Item->GetName());
}
void FNativeClassHeaderGenerator::PropertyNew(FOutputDevice& DeclOut, FOutputDevice& Out, UProperty* Prop, const TCHAR* OffsetStr, const TCHAR* Name, const TCHAR* DeclSpaces, const TCHAR* Spaces, const TCHAR* SourceStruct)
{
FString PropName = CreateUTF8LiteralString(FNativeClassHeaderGenerator::GetOverriddenName(Prop));
FString PropNameDep = Prop->HasAllPropertyFlags(CPF_Deprecated) ? Prop->GetName() + TEXT("_DEPRECATED") : Prop->GetName();
const TCHAR* UPropertyObjectFlags = FClass::IsOwnedByDynamicType(Prop) ? TEXT("RF_Public|RF_Transient") : TEXT("RF_Public|RF_Transient|RF_MarkAsNative");
EPropertyFlags PropFlags = Prop->PropertyFlags & ~CPF_ComputedFlags;
FString PropTag = GetGeneratedCodeCRCTag(Prop);
FString PropNotifyFunc = (Prop->RepNotifyFunc != NAME_None) ? CreateUTF8LiteralString(*Prop->RepNotifyFunc.ToString()) : TEXT("nullptr");
FString ArrayDim = (Prop->ArrayDim != 1) ? FString::Printf(TEXT("CPP_ARRAY_DIM(%s, %s)"), *PropNameDep, SourceStruct) : TEXT("1");
FString MetaDataParams = OutputMetaDataCodeForObject(DeclOut, Out, Prop, *FString::Printf(TEXT("%s_MetaData"), Name), DeclSpaces, Spaces);
FString NameWithoutScope = Name;
FString Scope;
int32 ScopeIndex = NameWithoutScope.Find(TEXT("::"), ESearchCase::CaseSensitive);
if (ScopeIndex != INDEX_NONE)
{
Scope = NameWithoutScope.Left(ScopeIndex) + TEXT("_");
NameWithoutScope = NameWithoutScope.RightChop(ScopeIndex + 2);
}
if (UByteProperty* TypedProp = Cast<UByteProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FBytePropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FBytePropertyParams %s = { UE4CodeGen_Private::EPropertyClass::Byte, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*GetSingletonNameFuncAddr(TypedProp->Enum),
*MetaDataParams,
*PropTag
);
return;
}
if (UInt8Property* TypedProp = Cast<UInt8Property>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FInt8PropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FInt8PropertyParams %s = { UE4CodeGen_Private::EPropertyClass::Int8, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*MetaDataParams,
*PropTag
);
return;
}
if (UInt16Property* TypedProp = Cast<UInt16Property>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FInt16PropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FInt16PropertyParams %s = { UE4CodeGen_Private::EPropertyClass::Int16, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*MetaDataParams,
*PropTag
);
return;
}
if (UIntProperty* TypedProp = Cast<UIntProperty>(Prop))
{
const TCHAR* PropTypeName = GUnsizedProperties.Contains(TypedProp) ? TEXT("FUnsizedIntPropertyParams") : TEXT("FIntPropertyParams");
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::%s %s;\r\n"), DeclSpaces, PropTypeName, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::%s %s = { UE4CodeGen_Private::EPropertyClass::Int, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s };%s\r\n"),
Spaces,
PropTypeName,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*MetaDataParams,
*PropTag
);
return;
}
if (UInt64Property* TypedProp = Cast<UInt64Property>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FInt64PropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FInt64PropertyParams %s = { UE4CodeGen_Private::EPropertyClass::Int64, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*MetaDataParams,
*PropTag
);
return;
}
if (UUInt16Property* TypedProp = Cast<UUInt16Property>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FUInt16PropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FUInt16PropertyParams %s = { UE4CodeGen_Private::EPropertyClass::UInt16, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*MetaDataParams,
*PropTag
);
return;
}
if (UUInt32Property* TypedProp = Cast<UUInt32Property>(Prop))
{
const TCHAR* PropTypeName = GUnsizedProperties.Contains(TypedProp) ? TEXT("FUnsizedUIntPropertyParams") : TEXT("FUInt32PropertyParams");
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::%s %s;\r\n"), DeclSpaces, PropTypeName, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::%s %s = { UE4CodeGen_Private::EPropertyClass::UInt32, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s };%s\r\n"),
Spaces,
PropTypeName,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*MetaDataParams,
*PropTag
);
return;
}
if (UUInt64Property* TypedProp = Cast<UUInt64Property>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FUInt64PropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FUInt64PropertyParams %s = { UE4CodeGen_Private::EPropertyClass::UInt64, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*MetaDataParams,
*PropTag
);
return;
}
if (UFloatProperty* TypedProp = Cast<UFloatProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FFloatPropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FFloatPropertyParams %s = { UE4CodeGen_Private::EPropertyClass::Float, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*MetaDataParams,
*PropTag
);
return;
}
if (UDoubleProperty* TypedProp = Cast<UDoubleProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FDoublePropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FDoublePropertyParams %s = { UE4CodeGen_Private::EPropertyClass::Double, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*MetaDataParams,
*PropTag
);
return;
}
if (UBoolProperty* TypedProp = Cast<UBoolProperty>(Prop))
{
UObject* PropOuter = Prop->GetOuter();
FString OuterSize;
FString Setter;
if (bool bOuterIsContainer = PropOuter->IsA<UArrayProperty>() || PropOuter->IsA<UMapProperty>() || PropOuter->IsA<USetProperty>())
{
OuterSize = TEXT("0");
Setter = TEXT("nullptr");
}
else
{
OuterSize = FString::Printf(TEXT("sizeof(%s)"), SourceStruct);
DeclOut.Logf(TEXT("%sstatic void %s_SetBit(void* Obj);\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(TEXT("%svoid %s_SetBit(void* Obj)\r\n"), Spaces, Name);
Out.Logf(TEXT("%s{\r\n"), Spaces);
Out.Logf(TEXT("%s\t((%s*)Obj)->%s%s = 1;\r\n"), Spaces, SourceStruct, *Prop->GetName(), Prop->HasAllPropertyFlags(CPF_Deprecated) ? TEXT("_DEPRECATED") : TEXT(""));
Out.Logf(TEXT("%s}\r\n"), Spaces);
Setter = FString::Printf(TEXT("&%s_SetBit"), Name);
}
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FBoolPropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FBoolPropertyParams %s = { UE4CodeGen_Private::EPropertyClass::Bool, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, sizeof(%s), %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
*TypedProp->GetCPPType(nullptr, 0),
TypedProp->IsNativeBool() ? TEXT("UE4CodeGen_Private::ENativeBool::Native") : TEXT("UE4CodeGen_Private::ENativeBool::NotNative"),
*OuterSize,
*Setter,
*MetaDataParams,
*PropTag
);
return;
}
if (USoftClassProperty* TypedProp = Cast<USoftClassProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FSoftClassPropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FSoftClassPropertyParams %s = { UE4CodeGen_Private::EPropertyClass::SoftClass, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*GetSingletonNameFuncAddr(TypedProp->MetaClass, false),
*MetaDataParams,
*PropTag
);
return;
}
if (UWeakObjectProperty* TypedProp = Cast<UWeakObjectProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FWeakObjectPropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FWeakObjectPropertyParams %s = { UE4CodeGen_Private::EPropertyClass::WeakObject, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*GetSingletonNameFuncAddr(TypedProp->PropertyClass, false),
*MetaDataParams,
*PropTag
);
return;
}
if (ULazyObjectProperty* TypedProp = Cast<ULazyObjectProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FLazyObjectPropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FLazyObjectPropertyParams %s = { UE4CodeGen_Private::EPropertyClass::LazyObject, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*GetSingletonNameFuncAddr(TypedProp->PropertyClass, false),
*MetaDataParams,
*PropTag
);
return;
}
if (USoftObjectProperty* TypedProp = Cast<USoftObjectProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FSoftObjectPropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FSoftObjectPropertyParams %s = { UE4CodeGen_Private::EPropertyClass::SoftObject, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*GetSingletonNameFuncAddr(TypedProp->PropertyClass, false),
*MetaDataParams,
*PropTag
);
return;
}
if (UClassProperty* TypedProp = Cast<UClassProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FClassPropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FClassPropertyParams %s = { UE4CodeGen_Private::EPropertyClass::Class, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*GetSingletonNameFuncAddr(TypedProp->MetaClass, false),
*GetSingletonNameFuncAddr(TypedProp->PropertyClass, false),
*MetaDataParams,
*PropTag
);
return;
}
if (UObjectProperty* TypedProp = Cast<UObjectProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FObjectPropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FObjectPropertyParams %s = { UE4CodeGen_Private::EPropertyClass::Object, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*GetSingletonNameFuncAddr(TypedProp->PropertyClass, false),
*MetaDataParams,
*PropTag
);
return;
}
if (UInterfaceProperty* TypedProp = Cast<UInterfaceProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FInterfacePropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FInterfacePropertyParams %s = { UE4CodeGen_Private::EPropertyClass::Interface, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*GetSingletonNameFuncAddr(TypedProp->InterfaceClass, false),
*MetaDataParams,
*PropTag
);
return;
}
if (UNameProperty* TypedProp = Cast<UNameProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FNamePropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FNamePropertyParams %s = { UE4CodeGen_Private::EPropertyClass::Name, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*MetaDataParams,
*PropTag
);
return;
}
if (UStrProperty* TypedProp = Cast<UStrProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FStrPropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FStrPropertyParams %s = { UE4CodeGen_Private::EPropertyClass::Str, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*MetaDataParams,
*PropTag
);
return;
}
if (UArrayProperty* TypedProp = Cast<UArrayProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FArrayPropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FArrayPropertyParams %s = { UE4CodeGen_Private::EPropertyClass::Array, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*MetaDataParams,
*PropTag
);
return;
}
if (UMapProperty* TypedProp = Cast<UMapProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FMapPropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FMapPropertyParams %s = { UE4CodeGen_Private::EPropertyClass::Map, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*MetaDataParams,
*PropTag
);
return;
}
if (USetProperty* TypedProp = Cast<USetProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FSetPropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FSetPropertyParams %s = { UE4CodeGen_Private::EPropertyClass::Set, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*MetaDataParams,
*PropTag
);
return;
}
if (UStructProperty* TypedProp = Cast<UStructProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FStructPropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FStructPropertyParams %s = { UE4CodeGen_Private::EPropertyClass::Struct, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*GetSingletonNameFuncAddr(TypedProp->Struct),
*MetaDataParams,
*PropTag
);
return;
}
if (UDelegateProperty* TypedProp = Cast<UDelegateProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FDelegatePropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FDelegatePropertyParams %s = { UE4CodeGen_Private::EPropertyClass::Delegate, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*GetSingletonNameFuncAddr(TypedProp->SignatureFunction),
*MetaDataParams,
*PropTag
);
return;
}
if (UMulticastDelegateProperty* TypedProp = Cast<UMulticastDelegateProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FMulticastDelegatePropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FMulticastDelegatePropertyParams %s = { UE4CodeGen_Private::EPropertyClass::MulticastDelegate, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*GetSingletonNameFuncAddr(TypedProp->SignatureFunction),
*MetaDataParams,
*PropTag
);
return;
}
if (UTextProperty* TypedProp = Cast<UTextProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FTextPropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FTextPropertyParams %s = { UE4CodeGen_Private::EPropertyClass::Text, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*MetaDataParams,
*PropTag
);
return;
}
if (UEnumProperty* TypedProp = Cast<UEnumProperty>(Prop))
{
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FEnumPropertyParams %s;\r\n"), DeclSpaces, *NameWithoutScope);
Out.Logf(
TEXT("%sconst UE4CodeGen_Private::FEnumPropertyParams %s = { UE4CodeGen_Private::EPropertyClass::Enum, %s, %s, (EPropertyFlags)0x%016llx, %s, %s, %s, %s, %s };%s\r\n"),
Spaces,
Name,
*PropName,
UPropertyObjectFlags,
PropFlags,
*ArrayDim,
*PropNotifyFunc,
OffsetStr,
*GetSingletonNameFuncAddr(TypedProp->Enum),
*MetaDataParams,
*PropTag
);
return;
}
// Unhandled type
check(false);
}
bool IsEditorOnlyDataProperty(UProperty* Prop)
{
while (Prop)
{
if (Prop->IsEditorOnlyProperty())
{
return true;
}
Prop = Cast<UProperty>(Prop->GetOuter());
}
return false;
}
FString FNativeClassHeaderGenerator::OutputProperties(FOutputDevice& DeclOut, FOutputDevice& Out, const TCHAR* Scope, const TArray<UProperty*>& Properties, const TCHAR* DeclSpaces, const TCHAR* Spaces)
{
if (Properties.Num() == 0)
{
return TEXT("nullptr, 0");
}
TArray<FPropertyNamePointerPair> PropertyNamesAndPointers;
bool bHasAllEditorOnlyDataProperties = true;
{
FMacroBlockEmitter WithEditorOnlyMacroEmitter(Out, TEXT("WITH_EDITORONLY_DATA"));
FMacroBlockEmitter WithEditorOnlyMacroEmitterDecl(DeclOut, TEXT("WITH_EDITORONLY_DATA"));
for (int32 Index = Properties.Num() - 1; Index >= 0; Index--)
{
UProperty* Prop = Properties[Index];
bool bRequiresHasEditorOnlyMacro = IsEditorOnlyDataProperty(Prop);
if (!bRequiresHasEditorOnlyMacro)
{
bHasAllEditorOnlyDataProperties = false;
}
WithEditorOnlyMacroEmitter(bRequiresHasEditorOnlyMacro);
WithEditorOnlyMacroEmitterDecl(bRequiresHasEditorOnlyMacro);
OutputProperty(DeclOut, Out, Scope, PropertyNamesAndPointers, Prop, DeclSpaces, Spaces);
}
WithEditorOnlyMacroEmitter(bHasAllEditorOnlyDataProperties);
WithEditorOnlyMacroEmitterDecl(bHasAllEditorOnlyDataProperties);
DeclOut.Logf(TEXT("%sstatic const UE4CodeGen_Private::FPropertyParamsBase* const PropPointers[];\r\n"), DeclSpaces);
Out.Logf(TEXT("%sconst UE4CodeGen_Private::FPropertyParamsBase* const %sPropPointers[] = {\r\n"), Spaces, Scope);
for (const FPropertyNamePointerPair& PropNameAndPtr : PropertyNamesAndPointers)
{
bool bRequiresHasEditorOnlyMacro = IsEditorOnlyDataProperty(PropNameAndPtr.Prop);
WithEditorOnlyMacroEmitter(bRequiresHasEditorOnlyMacro);
WithEditorOnlyMacroEmitterDecl(bRequiresHasEditorOnlyMacro);
Out.Logf(TEXT("%s\t(const UE4CodeGen_Private::FPropertyParamsBase*)&%s,\r\n"), Spaces, *PropNameAndPtr.Name);
}
WithEditorOnlyMacroEmitter(bHasAllEditorOnlyDataProperties);
WithEditorOnlyMacroEmitterDecl(bHasAllEditorOnlyDataProperties);
Out.Logf(TEXT("%s};\r\n"), Spaces);
}
if (bHasAllEditorOnlyDataProperties)
{
return FString::Printf(TEXT("IF_WITH_EDITORONLY_DATA(%sPropPointers, nullptr), IF_WITH_EDITORONLY_DATA(ARRAY_COUNT(%sPropPointers), 0)"), Scope, Scope);
}
else
{
return FString::Printf(TEXT("%sPropPointers, ARRAY_COUNT(%sPropPointers)"), Scope, Scope);
}
}
inline FString GetEventStructParamsName(UObject* Outer, const TCHAR* FunctionName)
{
FString OuterName;
if (Outer->IsA<UClass>())
{
OuterName = ((UClass*)Outer)->GetName();
}
else if (Outer->IsA<UPackage>())
{
OuterName = ((UPackage*)Outer)->GetName();
OuterName.ReplaceInline(TEXT("/"), TEXT("_"), ESearchCase::CaseSensitive);
}
else
{
FError::Throwf(TEXT("Unrecognized outer type"));
}
FString Result = FString::Printf(TEXT("%s_event%s_Parms"), *OuterName, FunctionName);
if (Result.Len() && FChar::IsDigit(Result[0]))
{
Result.InsertAt(0, TCHAR('_'));
}
return Result;
}
void FNativeClassHeaderGenerator::OutputProperty(FOutputDevice& DeclOut, FOutputDevice& Out, const TCHAR* Scope, TArray<FPropertyNamePointerPair>& PropertyNamesAndPointers, UProperty* Prop, const TCHAR* DeclSpaces, const TCHAR* Spaces)
{
FString PropName = Prop->GetName();
FString PropVariableName = FString::Printf(TEXT("%sNewProp_%s"), Scope, *PropName);
// Helper to handle the creation of the underlying properties if they're enum properties
auto HandleUnderlyingEnumProperty = [this, &PropertyNamesAndPointers, &DeclOut, &Out, DeclSpaces, Spaces](UProperty* LocalProp, const FString& OuterName)
{
if (UEnumProperty* EnumProp = Cast<UEnumProperty>(LocalProp))
{
FString PropVarName = OuterName + TEXT("_Underlying");
PropertyNew(DeclOut, Out, EnumProp->UnderlyingProp, TEXT("0"), *PropVarName, DeclSpaces, Spaces);
PropertyNamesAndPointers.Emplace(MoveTemp(PropVarName), EnumProp->UnderlyingProp);
}
};
{
FString SourceStruct;
if (UFunction* Function = Cast<UFunction>(Prop->GetOuter()))
{
while (Function->GetSuperFunction())
{
Function = Function->GetSuperFunction();
}
FString FunctionName = Function->GetName();
if( Function->HasAnyFunctionFlags( FUNC_Delegate ) )
{
FunctionName = FunctionName.LeftChop( FString( HEADER_GENERATED_DELEGATE_SIGNATURE_SUFFIX ).Len() );
}
SourceStruct = GetEventStructParamsName(Function->GetOuter(), *FunctionName);
}
else
{
SourceStruct = NameLookupCPP.GetNameCPP(CastChecked<UStruct>(Prop->GetOuter()));
}
FString PropNameDep = PropName;
if (Prop->HasAllPropertyFlags(CPF_Deprecated))
{
PropNameDep += TEXT("_DEPRECATED");
}
FString PropMacroOuterClass = FString::Printf(TEXT("STRUCT_OFFSET(%s, %s)"), *SourceStruct, *PropNameDep);
PropertyNew(DeclOut, Out, Prop, *PropMacroOuterClass, *PropVariableName, DeclSpaces, Spaces, *SourceStruct);
PropertyNamesAndPointers.Emplace(PropVariableName, Prop);
HandleUnderlyingEnumProperty(Prop, PropVariableName);
}
if (UArrayProperty* ArrayProperty = Cast<UArrayProperty>(Prop))
{
FString InnerVariableName = FString::Printf(TEXT("%sNewProp_%s_Inner"), Scope, *ArrayProperty->Inner->GetName());
PropertyNew(DeclOut, Out, ArrayProperty->Inner, TEXT("0"), *InnerVariableName, DeclSpaces, Spaces);
PropertyNamesAndPointers.Emplace(InnerVariableName, ArrayProperty->Inner);
HandleUnderlyingEnumProperty(ArrayProperty->Inner, InnerVariableName);
}
else if (UMapProperty* MapProperty = Cast<UMapProperty>(Prop))
{
UProperty* Key = MapProperty->KeyProp;
UProperty* Value = MapProperty->ValueProp;
FString KeyVariableName = FString::Printf(TEXT("%sNewProp_%s_KeyProp"), Scope, *Key->GetName());
FString ValueVariableName = FString::Printf(TEXT("%sNewProp_%s_ValueProp"), Scope, *Value->GetName());
PropertyNew(DeclOut, Out, Key, TEXT("0"), *KeyVariableName, DeclSpaces, Spaces);
PropertyNamesAndPointers.Emplace(KeyVariableName, Key);
HandleUnderlyingEnumProperty(Key, KeyVariableName);
PropertyNew(DeclOut, Out, Value, TEXT("1"), *ValueVariableName, DeclSpaces, Spaces);
PropertyNamesAndPointers.Emplace(ValueVariableName, Value);
HandleUnderlyingEnumProperty(Value, ValueVariableName);
}
else if (USetProperty* SetProperty = Cast<USetProperty>(Prop))
{
UProperty* Inner = SetProperty->ElementProp;
FString ElementVariableName = FString::Printf(TEXT("%sNewProp_%s_ElementProp"), Scope, *Inner->GetName());
PropertyNew(DeclOut, Out, Inner, TEXT("0"), *ElementVariableName, DeclSpaces, Spaces);
PropertyNamesAndPointers.Emplace(ElementVariableName, Inner);
HandleUnderlyingEnumProperty(Inner, ElementVariableName);
}
}
static bool IsAlwaysAccessible(UScriptStruct* Script)
{
FName ToTest = Script->GetFName();
if (ToTest == NAME_Matrix)
{
return false; // special case, the C++ FMatrix does not have the same members.
}
bool Result = Script->HasDefaults(); // if we have cpp struct ops in it for UHT, then we can assume it is always accessible
if( ToTest == NAME_Plane
|| ToTest == NAME_Vector
|| ToTest == NAME_Vector4
|| ToTest == NAME_Quat
|| ToTest == NAME_Color
)
{
check(Result);
}
return Result;
}
static void FindNoExportStructsRecursive(TArray<UScriptStruct*>& Structs, UStruct* Start)
{
while (Start)
{
if (UScriptStruct* StartScript = Cast<UScriptStruct>(Start))
{
if (StartScript->StructFlags & STRUCT_Native)
{
break;
}
if (!IsAlwaysAccessible(StartScript)) // these are a special cases that already exists and if wrong if exported naively
{
// this will topologically sort them in reverse order
Structs.Remove(StartScript);
Structs.Add(StartScript);
}
}
for (UProperty* Prop : TFieldRange<UProperty>(Start, EFieldIteratorFlags::ExcludeSuper))
{
if (UStructProperty* StructProp = Cast<UStructProperty>(Prop))
{
FindNoExportStructsRecursive(Structs, StructProp->Struct);
}
else if (UArrayProperty* ArrayProp = Cast<UArrayProperty>(Prop))
{
if (UStructProperty* InnerStructProp = Cast<UStructProperty>(ArrayProp->Inner))
{
FindNoExportStructsRecursive(Structs, InnerStructProp->Struct);
}
}
else if (UMapProperty* MapProp = Cast<UMapProperty>(Prop))
{
if (UStructProperty* KeyStructProp = Cast<UStructProperty>(MapProp->KeyProp))
{
FindNoExportStructsRecursive(Structs, KeyStructProp->Struct);
}
if (UStructProperty* ValueStructProp = Cast<UStructProperty>(MapProp->ValueProp))
{
FindNoExportStructsRecursive(Structs, ValueStructProp->Struct);
}
}
else if (USetProperty* SetProp = Cast<USetProperty>(Prop))
{
if (UStructProperty* ElementStructProp = Cast<UStructProperty>(SetProp->ElementProp))
{
FindNoExportStructsRecursive(Structs, ElementStructProp->Struct);
}
}
}
Start = Start->GetSuperStruct();
}
}
static TArray<UScriptStruct*> FindNoExportStructs(UStruct* Start)
{
TArray<UScriptStruct*> Result;
FindNoExportStructsRecursive(Result, Start);
// These come out in reverse order of topology so reverse them
Algo::Reverse(Result);
return Result;
}
FString FNativeClassHeaderGenerator::GetPackageSingletonName(const UPackage* InPackage)
{
static FString ClassString = NameLookupCPP.GetNameCPP(UPackage::StaticClass());
FString Result = TEXT("Z_Construct_") + ClassString + TEXT("_") + InPackage->GetName().Replace(TEXT("/"), TEXT("_")) + TEXT("()");
if (UniqueCrossModuleReferences)
{
UniqueCrossModuleReferences->Add(FString::Printf(TEXT("\tUPackage* %s;\r\n"), *Result));
}
return Result;
}
void FNativeClassHeaderGenerator::ExportGeneratedPackageInitCode(FOutputDevice& Out, const TCHAR* InDeclarations, const UPackage* InPackage, uint32 CRC)
{
FString ApiString = GetAPIString();
FString SingletonName = GetPackageSingletonName(InPackage);
TArray<UField*> SingletonsToOutput;
for (UField* ScriptType : TObjectRange<UField>())
{
if (ScriptType->GetOutermost() != InPackage)
{
continue;
}
if (ScriptType->IsA<UDelegateFunction>() || (ScriptType->IsA<UScriptStruct>() && (((UScriptStruct*)ScriptType)->StructFlags & STRUCT_NoExport)))
{
UField* FieldOuter = Cast<UField>(ScriptType->GetOuter());
if (!FieldOuter || !FClass::IsDynamic(FieldOuter))
{
SingletonsToOutput.Add(ScriptType);
}
}
}
for (UField* ScriptType : SingletonsToOutput)
{
const FString& Extern = FTypeSingletonCache::Get(ScriptType, true).GetExternDecl();
Out.Logf(TEXT("%s"), *Extern);
}
FOutputDeviceNull OutputDeviceNull;
FString MetaDataParams = OutputMetaDataCodeForObject(OutputDeviceNull, Out, InPackage, TEXT("Package_MetaDataParams"), TEXT(""), TEXT("\t\t\t"));
Out.Logf(TEXT("\tUPackage* %s\r\n"), *SingletonName);
Out.Logf(TEXT("\t{\r\n"));
Out.Logf(TEXT("\t\tstatic UPackage* ReturnPackage = nullptr;\r\n"));
Out.Logf(TEXT("\t\tif (!ReturnPackage)\r\n"));
Out.Logf(TEXT("\t\t{\r\n"));
FString SingletonRange;
if (SingletonsToOutput.Num() > 0)
{
Out.Logf(TEXT("\t\t\tstatic UObject* (*const SingletonFuncArray[])() = {\r\n"));
for (UField* ScriptType : SingletonsToOutput)
{
const FString& Name = FTypeSingletonCache::Get(ScriptType, true).GetName().LeftChop(2);
Out.Logf(TEXT("\t\t\t\t(UObject* (*)())%s,\r\n"), *Name);
}
Out.Logf(TEXT("\t\t\t};\r\n"));
SingletonRange = TEXT("SingletonFuncArray, ARRAY_COUNT(SingletonFuncArray)");
}
else
{
SingletonRange = TEXT("nullptr, 0");
}
Out.Logf(TEXT("\t\t\tstatic const UE4CodeGen_Private::FPackageParams PackageParams = {\r\n"));
Out.Logf(TEXT("\t\t\t\t%s,\r\n"), *CreateUTF8LiteralString(InPackage->GetName()));
Out.Logf(TEXT("\t\t\t\tPKG_CompiledIn | 0x%08X,\r\n"), InPackage->GetPackageFlags() & (PKG_ClientOptional | PKG_ServerSideOnly | PKG_EditorOnly | PKG_Developer));
Out.Logf(TEXT("\t\t\t\t0x%08X,\r\n"), CRC);
Out.Logf(TEXT("\t\t\t\t0x%08X,\r\n"), GenerateTextCRC(InDeclarations));
Out.Logf(TEXT("\t\t\t\t%s,\r\n"), *SingletonRange);
Out.Logf(TEXT("\t\t\t\t%s\r\n"), *MetaDataParams);
Out.Logf(TEXT("\t\t\t};\r\n"));
Out.Logf(TEXT("\t\t\tUE4CodeGen_Private::ConstructUPackage(ReturnPackage, PackageParams);\r\n"));
Out.Logf(TEXT("\t\t}\r\n"));
Out.Logf(TEXT("\t\treturn ReturnPackage;\r\n"));
Out.Logf(TEXT("\t}\r\n"));
}
void FNativeClassHeaderGenerator::ExportNativeGeneratedInitCode(FOutputDevice& Out, FOutputDevice& OutDeclarations, const FUnrealSourceFile& SourceFile, FClass* Class, FUHTStringBuilder& OutFriendText)
{
check(!OutFriendText.Len());
UE_CLOG(Class->ClassGeneratedBy, LogCompile, Fatal, TEXT("For intrinsic and compiled-in classes, ClassGeneratedBy should always be null"));
const bool bIsNoExport = Class->HasAnyClassFlags(CLASS_NoExport);
const bool bIsDynamic = FClass::IsDynamic(Class);
const TCHAR* ClassNameCPP = NameLookupCPP.GetNameCPP(Class);
FUHTStringBuilder BodyText;
FString ApiString = GetAPIString();
TSet<FName> AlreadyIncludedNames;
TArray<UFunction*> FunctionsToExport;
bool bAllEditorOnlyFunctions = true;
for (UFunction* LocalFunc : TFieldRange<UFunction>(Class,EFieldIteratorFlags::ExcludeSuper))
{
FName TrueName = FNativeClassHeaderGenerator::GetOverriddenFName(LocalFunc);
bool bAlreadyIncluded = false;
AlreadyIncludedNames.Add(TrueName, &bAlreadyIncluded);
if (bAlreadyIncluded)
{
// In a dynamic class the same function signature may be used for a Multi- and a Single-cast delegate.
if (!LocalFunc->IsA<UDelegateFunction>() || !bIsDynamic)
{
FError::Throwf(TEXT("The same function linked twice. Function: %s Class: %s"), *LocalFunc->GetName(), *Class->GetName());
}
continue;
}
if (!LocalFunc->IsA<UDelegateFunction>())
{
bAllEditorOnlyFunctions &= LocalFunc->HasAnyFunctionFlags(FUNC_EditorOnly);
}
FunctionsToExport.Add(LocalFunc);
}
// Sort the list of functions
FunctionsToExport.Sort();
FUHTStringBuilder GeneratedClassRegisterFunctionText;
// The class itself.
{
// simple ::StaticClass wrapper to avoid header, link and DLL hell
{
FString SingletonNameNoRegister = GetSingletonName(Class, false);
OutDeclarations.Log(FTypeSingletonCache::Get(Class, false).GetExternDecl());
GeneratedClassRegisterFunctionText.Logf(TEXT("\tUClass* %s\r\n"), *SingletonNameNoRegister);
GeneratedClassRegisterFunctionText.Logf(TEXT("\t{\r\n"));
GeneratedClassRegisterFunctionText.Logf(TEXT("\t\treturn %s::StaticClass();\r\n"), ClassNameCPP);
GeneratedClassRegisterFunctionText.Logf(TEXT("\t}\r\n"));
}
FString SingletonName = GetSingletonName(Class);
FString StaticsStructName = SingletonName.LeftChop(2) + TEXT("_Statics");
OutFriendText.Logf(TEXT("\tfriend struct %s;\r\n"), *StaticsStructName);
OutDeclarations.Log(FTypeSingletonCache::Get(Class).GetExternDecl());
GeneratedClassRegisterFunctionText.Logf(TEXT("\tstruct %s\r\n"), *StaticsStructName);
GeneratedClassRegisterFunctionText.Logf(TEXT("\t{\r\n"));
FUHTStringBuilder StaticDefinitions;
FUHTStringBuilder Singletons;
UClass* SuperClass = Class->GetSuperClass();
if (SuperClass && SuperClass != Class)
{
OutDeclarations.Log(FTypeSingletonCache::Get(SuperClass).GetExternDecl());
Singletons.Logf(TEXT("\t\t(UObject* (*)())%s,\r\n"), *GetSingletonName(SuperClass).LeftChop(2));
}
if (!bIsDynamic)
{
FString PackageSingletonName = GetPackageSingletonName(Class->GetOutermost());
OutDeclarations.Logf(TEXT("\t%s_API UPackage* %s;\r\n"), *ApiString, *PackageSingletonName);
Singletons.Logf(TEXT("\t\t(UObject* (*)())%s,\r\n"), *PackageSingletonName.LeftChop(2));
}
const TCHAR* SingletonsRange;
if (Singletons.Len() != 0)
{
GeneratedClassRegisterFunctionText.Logf(TEXT("\t\tstatic UObject* (*const DependentSingletons[])();\r\n"));
StaticDefinitions.Logf(TEXT("\tUObject* (*const %s::DependentSingletons[])() = {\r\n"), *StaticsStructName);
StaticDefinitions.Log (*Singletons);
StaticDefinitions.Logf(TEXT("\t};\r\n"));
SingletonsRange = TEXT("DependentSingletons, ARRAY_COUNT(DependentSingletons)");
}
else
{
SingletonsRange = TEXT("nullptr, 0");
}
if (FunctionsToExport.Num() != 0)
{
GeneratedClassRegisterFunctionText.Log(BEGIN_WRAP_EDITOR_ONLY(bAllEditorOnlyFunctions));
GeneratedClassRegisterFunctionText.Log(TEXT("\t\tstatic const FClassFunctionLinkInfo FuncInfo[];\r\n"));
GeneratedClassRegisterFunctionText.Log(END_WRAP_EDITOR_ONLY(bAllEditorOnlyFunctions));
StaticDefinitions.Log(BEGIN_WRAP_EDITOR_ONLY(bAllEditorOnlyFunctions));
StaticDefinitions.Logf(TEXT("\tconst FClassFunctionLinkInfo %s::FuncInfo[] = {\r\n"), *StaticsStructName);
for (UFunction* Function : FunctionsToExport)
{
const bool bIsEditorOnlyFunction = Function->HasAnyFunctionFlags(FUNC_EditorOnly);
if (!Function->IsA<UDelegateFunction>())
{
OutDeclarations.Logf(
TEXT("%s%s%s"),
BEGIN_WRAP_EDITOR_ONLY(bIsEditorOnlyFunction),
*FTypeSingletonCache::Get(Function).GetExternDecl(),
END_WRAP_EDITOR_ONLY(bIsEditorOnlyFunction)
);
ExportFunction(Out, SourceFile, Function, bIsNoExport);
}
StaticDefinitions.Logf(
TEXT("%s\t\t{ &%s, %s },%s\r\n%s"),
BEGIN_WRAP_EDITOR_ONLY(bIsEditorOnlyFunction),
*GetSingletonNameFuncAddr(Function),
*FNativeClassHeaderGenerator::GetUTF8OverriddenNameForLiteral(Function),
*GetGeneratedCodeCRCTag(Function),
END_WRAP_EDITOR_ONLY(bIsEditorOnlyFunction)
);
}
StaticDefinitions.Log(TEXT("\t};\r\n"));
StaticDefinitions.Log(END_WRAP_EDITOR_ONLY(bAllEditorOnlyFunctions));
}
TMap<FName, FString>* MetaDataMap = UMetaData::GetMapForObject(Class);
if (MetaDataMap)
{
FClassMetaData* ClassMetaData = GScriptHelper.FindClassData(Class);
if (ClassMetaData && ClassMetaData->bObjectInitializerConstructorDeclared)
{
MetaDataMap->Add(FName(TEXT("ObjectInitializerConstructorDeclared")), TEXT(""));
}
}
FString MetaDataParams = OutputMetaDataCodeForObject(GeneratedClassRegisterFunctionText, StaticDefinitions, Class, *FString::Printf(TEXT("%s::Class_MetaDataParams"), *StaticsStructName), TEXT("\t\t"), TEXT("\t"));
TArray<UProperty*> Props;
Algo::Copy(TFieldRange<UProperty>(Class, EFieldIteratorFlags::ExcludeSuper), Props);
FString PropertyRange = OutputProperties(GeneratedClassRegisterFunctionText, StaticDefinitions, *FString::Printf(TEXT("%s::"), *StaticsStructName), Props, TEXT("\t\t"), TEXT("\t"));
const TCHAR* InterfaceRange;
if (Class->Interfaces.Num() > 0)
{
GeneratedClassRegisterFunctionText.Log(TEXT("\t\tstatic const UE4CodeGen_Private::FImplementedInterfaceParams InterfaceParams[];\r\n"));
StaticDefinitions.Logf(TEXT("\t\tconst UE4CodeGen_Private::FImplementedInterfaceParams %s::InterfaceParams[] = {\r\n"), *StaticsStructName);
for (const FImplementedInterface& Inter : Class->Interfaces)
{
check(Inter.Class);
FString OffsetString;
if (Inter.PointerOffset)
{
OffsetString = FString::Printf(TEXT("(int32)VTABLE_OFFSET(%s, %s)"), ClassNameCPP, NameLookupCPP.GetNameCPP(Inter.Class, true));
}
else
{
OffsetString = TEXT("0");
}
StaticDefinitions.Logf(
TEXT("\t\t\t{ %s, %s, %s },\r\n"),
*GetSingletonName(Inter.Class, false).LeftChop(2),
*OffsetString,
Inter.bImplementedByK2 ? TEXT("true") : TEXT("false")
);
}
StaticDefinitions.Log(TEXT("\t\t};\r\n"));
InterfaceRange = TEXT("InterfaceParams, ARRAY_COUNT(InterfaceParams)");
}
else
{
InterfaceRange = TEXT("nullptr, 0");
}
GeneratedClassRegisterFunctionText.Logf(TEXT("\t\tstatic const FCppClassTypeInfoStatic StaticCppClassTypeInfo;\r\n"));
StaticDefinitions.Logf(TEXT("\tconst FCppClassTypeInfoStatic %s::StaticCppClassTypeInfo = {\r\n"), *StaticsStructName);
StaticDefinitions.Logf(TEXT("\t\tTCppClassTypeTraits<%s>::IsAbstract,\r\n"), NameLookupCPP.GetNameCPP(Class, Class->HasAllClassFlags(CLASS_Interface)));
StaticDefinitions.Logf(TEXT("\t};\r\n"));
GeneratedClassRegisterFunctionText.Log (TEXT("\t\tstatic const UE4CodeGen_Private::FClassParams ClassParams;\r\n"));
uint32 ClassFlags = (uint32)Class->ClassFlags;
if (!bIsNoExport)
{
ClassFlags = ClassFlags | CLASS_MatchedSerializers;
}
ClassFlags = ClassFlags & CLASS_SaveInCompiledInClasses;
StaticDefinitions.Logf(TEXT("\tconst UE4CodeGen_Private::FClassParams %s::ClassParams = {\r\n"), *StaticsStructName);
StaticDefinitions.Logf(TEXT("\t\t&%s::StaticClass,\r\n"), ClassNameCPP);
StaticDefinitions.Logf(TEXT("\t\t%s,\r\n"), SingletonsRange);
StaticDefinitions.Logf(TEXT("\t\t0x%08Xu,\r\n"), ClassFlags);
StaticDefinitions.Logf(TEXT("\t\t%s,\r\n"), (FunctionsToExport.Num() != 0) ? (bAllEditorOnlyFunctions ? TEXT("IF_WITH_EDITOR(FuncInfo, nullptr), IF_WITH_EDITOR(ARRAY_COUNT(FuncInfo), 0)") : TEXT("FuncInfo, ARRAY_COUNT(FuncInfo)")) : TEXT("nullptr, 0"));
StaticDefinitions.Logf(TEXT("\t\t%s,\r\n"), *PropertyRange);
StaticDefinitions.Logf(TEXT("\t\t%s,\r\n"), (Class->ClassConfigName != NAME_None) ? *CreateUTF8LiteralString(Class->ClassConfigName.ToString()) : TEXT("nullptr"));
StaticDefinitions.Log (TEXT("\t\t&StaticCppClassTypeInfo,\r\n"));
StaticDefinitions.Logf(TEXT("\t\t%s,\r\n"), InterfaceRange);
StaticDefinitions.Logf(TEXT("\t\t%s\r\n"), *MetaDataParams);
StaticDefinitions.Log (TEXT("\t};\r\n"));
GeneratedClassRegisterFunctionText.Logf(TEXT("\t};\r\n"));
GeneratedClassRegisterFunctionText.Log(*StaticDefinitions);
GeneratedClassRegisterFunctionText.Logf(TEXT("\tUClass* %s\r\n"), *SingletonName);
GeneratedClassRegisterFunctionText.Logf(TEXT("\t{\r\n"));
if (!bIsDynamic)
{
GeneratedClassRegisterFunctionText.Logf(TEXT("\t\tstatic UClass* OuterClass = nullptr;\r\n"));
GeneratedClassRegisterFunctionText.Logf(TEXT("\t\tif (!OuterClass)\r\n"));
}
else
{
const FString DynamicClassPackageName = FClass::GetTypePackageName(Class);
GeneratedClassRegisterFunctionText.Logf(TEXT("\t\tUPackage* OuterPackage = FindOrConstructDynamicTypePackage(TEXT(\"%s\"));\r\n"), *DynamicClassPackageName);
GeneratedClassRegisterFunctionText.Logf(TEXT("\t\tUClass* OuterClass = Cast<UClass>(StaticFindObjectFast(UClass::StaticClass(), OuterPackage, TEXT(\"%s\")));\r\n"), *FNativeClassHeaderGenerator::GetOverriddenName(Class));
GeneratedClassRegisterFunctionText.Logf(TEXT("\t\tif (!OuterClass || !(OuterClass->ClassFlags & CLASS_Constructed))\r\n"));
}
GeneratedClassRegisterFunctionText.Logf(TEXT("\t\t{\r\n"));
GeneratedClassRegisterFunctionText.Logf(TEXT("\t\t\tUE4CodeGen_Private::ConstructUClass(OuterClass, %s::ClassParams);\r\n"), *StaticsStructName);
if (bIsDynamic)
{
FString* CustomDynamicClassInitializationMD = MetaDataMap ? MetaDataMap->Find(TEXT("CustomDynamicClassInitialization")) : nullptr;
if (CustomDynamicClassInitializationMD)
{
GeneratedClassRegisterFunctionText.Logf(TEXT("\t\t\t\t%s(CastChecked<UDynamicClass>(OuterClass));\n"), *(*CustomDynamicClassInitializationMD));
}
}
GeneratedClassRegisterFunctionText.Logf(TEXT("\t\t}\r\n"));
GeneratedClassRegisterFunctionText.Logf(TEXT("\t\treturn OuterClass;\r\n"));
GeneratedClassRegisterFunctionText.Logf(TEXT("\t}\r\n"));
Out.Logf(TEXT("%s"), *GeneratedClassRegisterFunctionText);
}
if (OutFriendText.Len() && bIsNoExport)
{
Out.Logf(TEXT("\t/* friend declarations for pasting into noexport class %s\r\n"), ClassNameCPP);
Out.Log(OutFriendText);
Out.Logf(TEXT("\t*/\r\n"));
OutFriendText.Reset();
}
FString SingletonName = GetSingletonName(Class);
SingletonName.ReplaceInline(TEXT("()"), TEXT(""), ESearchCase::CaseSensitive); // function address
FString OverriddenClassName = *FNativeClassHeaderGenerator::GetOverriddenName(Class);
const FString EmptyString = FString();
const FString& InitSearchableValuesFunctionName = bIsDynamic ? Class->GetMetaData(TEXT("InitializeStaticSearchableValues")) : EmptyString;
const FString InitSearchableValuesFunctionParam = InitSearchableValuesFunctionName.IsEmpty() ? FString(TEXT("nullptr")) :
FString::Printf(TEXT("&%s::%s"), ClassNameCPP, *InitSearchableValuesFunctionName);
// Append base class' CRC at the end of the generated code, this will force update derived classes
// when base class changes during hot-reload.
uint32 BaseClassCRC = 0;
if (Class->GetSuperClass() && !Class->GetSuperClass()->HasAnyClassFlags(CLASS_Intrinsic))
{
BaseClassCRC = GGeneratedCodeCRCs.FindChecked(Class->GetSuperClass());
}
GeneratedClassRegisterFunctionText.Logf(TEXT("\r\n// %u\r\n"), BaseClassCRC);
// Calculate generated class initialization code CRC so that we know when it changes after hot-reload
uint32 ClassCrc = GenerateTextCRC(*GeneratedClassRegisterFunctionText);
GGeneratedCodeCRCs.Add(Class, ClassCrc);
// Emit the IMPLEMENT_CLASS macro to go in the generated cpp file.
if (!bIsDynamic)
{
Out.Logf(TEXT("\tIMPLEMENT_CLASS(%s, %u);\r\n"), ClassNameCPP, ClassCrc);
}
else
{
Out.Logf(TEXT("\tIMPLEMENT_DYNAMIC_CLASS(%s, TEXT(\"%s\"), %u);\r\n"), ClassNameCPP, *OverriddenClassName, ClassCrc);
}
Out.Logf(TEXT("\tstatic FCompiledInDefer Z_CompiledInDefer_UClass_%s(%s, &%s::StaticClass, TEXT(\"%s\"), TEXT(\"%s\"), %s, %s, %s, %s);\r\n"),
ClassNameCPP,
*SingletonName,
ClassNameCPP,
bIsDynamic ? *FClass::GetTypePackageName(Class) : *Class->GetOutermost()->GetName(),
bIsDynamic ? *OverriddenClassName : ClassNameCPP,
bIsDynamic ? TEXT("true") : TEXT("false"),
bIsDynamic ? *AsTEXT(FClass::GetTypePackageName(Class)) : TEXT("nullptr"),
bIsDynamic ? *AsTEXT(FNativeClassHeaderGenerator::GetOverriddenPathName(Class)) : TEXT("nullptr"),
*InitSearchableValuesFunctionParam);
}
void FNativeClassHeaderGenerator::ExportFunction(FOutputDevice& Out, const FUnrealSourceFile& SourceFile, UFunction* Function, bool bIsNoExport)
{
UFunction* SuperFunction = Function->GetSuperFunction();
const bool bIsEditorOnlyFunction = Function->HasAnyFunctionFlags(FUNC_EditorOnly);
bool bIsDelegate = Function->HasAnyFunctionFlags(FUNC_Delegate);
FString SingletonName = GetSingletonName(Function);
FString StaticsStructName = SingletonName.LeftChop(2) + TEXT("_Statics");
FUHTStringBuilder CurrentFunctionText;
FUHTStringBuilder StaticDefinitions;
// Begin wrapping editor only functions. Note: This should always be the first step!
if (bIsEditorOnlyFunction)
{
CurrentFunctionText.Logf(BeginEditorOnlyGuard);
}
CurrentFunctionText.Logf(TEXT("\tstruct %s\r\n"), *StaticsStructName);
CurrentFunctionText.Log (TEXT("\t{\r\n"));
if (bIsNoExport || !(Function->FunctionFlags&FUNC_Event)) // non-events do not export a params struct, so lets do that locally for offset determination
{
TArray<UScriptStruct*> Structs = FindNoExportStructs(Function);
for (UScriptStruct* Struct : Structs)
{
ExportMirrorsForNoexportStruct(CurrentFunctionText, Struct, /*Indent=*/ 2);
}
ExportEventParm(CurrentFunctionText, ForwardDeclarations, Function, /*Indent=*/ 2, /*bOutputConstructor=*/ false, EExportingState::TypeEraseDelegates);
}
UField* FieldOuter = Cast<UField>(Function->GetOuter());
const bool bIsDynamic = (FieldOuter && FClass::IsDynamic(FieldOuter));
FString OuterFunc;
if (UObject* Outer = Function->GetOuter())
{
OuterFunc = Outer->IsA<UPackage>() ? GetPackageSingletonName((UPackage*)Outer).LeftChop(2) : GetSingletonNameFuncAddr(Function->GetOwnerClass());
}
else
{
OuterFunc = TEXT("nullptr");
}
TArray<UProperty*> Props;
Algo::Copy(TFieldRange<UProperty>(Function, EFieldIteratorFlags::ExcludeSuper), Props);
FString StructureSize;
if (Props.Num())
{
UFunction* TempFunction = Function;
while (TempFunction->GetSuperFunction())
{
TempFunction = TempFunction->GetSuperFunction();
}
FString FunctionName = TempFunction->GetName();
if (TempFunction->HasAnyFunctionFlags(FUNC_Delegate))
{
FunctionName = FunctionName.LeftChop(FString(HEADER_GENERATED_DELEGATE_SIGNATURE_SUFFIX).Len());
}
StructureSize = FString::Printf(TEXT("sizeof(%s)"), *GetEventStructParamsName(TempFunction->GetOuter(), *FunctionName));
}
else
{
StructureSize = TEXT("0");
}
const TCHAR* UFunctionType = bIsDelegate ? TEXT("UDelegateFunction") : TEXT("UFunction");
const TCHAR* UFunctionObjectFlags = FClass::IsOwnedByDynamicType(Function) ? TEXT("RF_Public|RF_Transient") : TEXT("RF_Public|RF_Transient|RF_MarkAsNative");
FString PropertyRange = OutputProperties(CurrentFunctionText, StaticDefinitions, *FString::Printf(TEXT("%s::"), *StaticsStructName), Props, TEXT("\t\t"), TEXT("\t"));
const FFunctionData* CompilerInfo = FFunctionData::FindForFunction(Function);
const FFuncInfo& FunctionData = CompilerInfo->GetFunctionData();
const bool bIsNet = !!(FunctionData.FunctionFlags & (FUNC_NetRequest | FUNC_NetResponse));
FString MetaDataParams = OutputMetaDataCodeForObject(CurrentFunctionText, StaticDefinitions, Function, *FString::Printf(TEXT("%s::Function_MetaDataParams"), *StaticsStructName), TEXT("\t\t"), TEXT("\t"));
CurrentFunctionText.Log(TEXT("\t\tstatic const UE4CodeGen_Private::FFunctionParams FuncParams;\r\n"));
StaticDefinitions.Logf(
TEXT("\tconst UE4CodeGen_Private::FFunctionParams %s::FuncParams = { (UObject*(*)())%s, %s, %s, %s, (EFunctionFlags)0x%08X, %s, %s, %d, %d, %s };\r\n"),
*StaticsStructName,
*OuterFunc,
*CreateUTF8LiteralString(FNativeClassHeaderGenerator::GetOverriddenName(Function)),
UFunctionObjectFlags,
*GetSingletonNameFuncAddr(SuperFunction),
(uint32)Function->FunctionFlags,
*StructureSize,
*PropertyRange,
bIsNet ? FunctionData.RPCId : 0,
bIsNet ? FunctionData.RPCResponseId : 0,
*MetaDataParams
);
CurrentFunctionText.Log(TEXT("\t};\r\n"));
CurrentFunctionText.Log(*StaticDefinitions);
CurrentFunctionText.Logf(TEXT("\tUFunction* %s\r\n"), *SingletonName);
CurrentFunctionText.Log (TEXT("\t{\r\n"));
if (!bIsDynamic)
{
CurrentFunctionText.Logf(TEXT("\t\tstatic UFunction* ReturnFunction = nullptr;\r\n"));
}
else
{
FString FunctionName = FNativeClassHeaderGenerator::GetOverriddenNameForLiteral(Function);
CurrentFunctionText.Logf(TEXT("\t\tUObject* Outer = %s();\r\n"), *OuterFunc);
CurrentFunctionText.Logf(TEXT("\t\tUFunction* ReturnFunction = static_cast<UFunction*>(StaticFindObjectFast( UFunction::StaticClass(), Outer, %s ));\r\n"), *FunctionName);
}
CurrentFunctionText.Logf(TEXT("\t\tif (!ReturnFunction)\r\n"));
CurrentFunctionText.Logf(TEXT("\t\t{\r\n"));
CurrentFunctionText.Logf(TEXT("\t\t\tUE4CodeGen_Private::ConstructUFunction(ReturnFunction, %s::FuncParams);\r\n"), *StaticsStructName);
CurrentFunctionText.Log (TEXT("\t\t}\r\n"));
CurrentFunctionText.Log (TEXT("\t\treturn ReturnFunction;\r\n"));
CurrentFunctionText.Log (TEXT("\t}\r\n"));
// End wrapping editor only functions. Note: This should always be the last step!
if (bIsEditorOnlyFunction)
{
CurrentFunctionText.Logf(EndEditorOnlyGuard);
}
uint32 FunctionCrc = GenerateTextCRC(*CurrentFunctionText);
GGeneratedCodeCRCs.Add(Function, FunctionCrc);
Out.Log(CurrentFunctionText);
}
void FNativeClassHeaderGenerator::ExportNatives(FOutputDevice& Out, FClass* Class)
{
const TCHAR* ClassCPPName = NameLookupCPP.GetNameCPP(Class);
FString TypeName = Class->HasAnyClassFlags(CLASS_Interface) ? *FString::Printf(TEXT("I%s"), *Class->GetName()) : ClassCPPName;
Out.Logf(TEXT("\tvoid %s::StaticRegisterNatives%s()\r\n"), ClassCPPName, ClassCPPName);
Out.Log(TEXT("\t{\r\n"));
{
bool bAllEditorOnly = true;
TArray<TTuple<UFunction*, FString>> NamedFunctionsToExport;
for (UFunction* Function : TFieldRange<UFunction>(Class, EFieldIteratorFlags::ExcludeSuper))
{
if ((Function->FunctionFlags & (FUNC_Native | FUNC_NetRequest)) == FUNC_Native)
{
FString OverriddenName = FNativeClassHeaderGenerator::GetUTF8OverriddenNameForLiteral(Function);
NamedFunctionsToExport.Emplace(Function, MoveTemp(OverriddenName));
if (!Function->HasAnyFunctionFlags(FUNC_EditorOnly))
{
bAllEditorOnly = false;
}
}
}
Algo::SortBy(NamedFunctionsToExport, [](const TTuple<UFunction*, FString>& Pair){ return Pair.Get<0>()->GetFName(); });
if (NamedFunctionsToExport.Num() > 0)
{
FMacroBlockEmitter EditorOnly(Out, TEXT("WITH_EDITOR"));
EditorOnly(bAllEditorOnly);
Out.Logf(TEXT("\t\tUClass* Class = %s::StaticClass();\r\n"), ClassCPPName);
Out.Log(TEXT("\t\tstatic const FNameNativePtrPair Funcs[] = {\r\n"));
for (const TTuple<UFunction*, FString>& Func : NamedFunctionsToExport)
{
UFunction* Function = Func.Get<0>();
EditorOnly(Function->HasAnyFunctionFlags(FUNC_EditorOnly));
Out.Logf(
TEXT("\t\t\t{ %s, &%s::exec%s },\r\n"),
*Func.Get<1>(),
*TypeName,
*Function->GetName()
);
}
EditorOnly(bAllEditorOnly);
Out.Log(TEXT("\t\t};\r\n"));
Out.Logf(TEXT("\t\tFNativeFunctionRegistrar::RegisterFunctions(Class, Funcs, ARRAY_COUNT(Funcs));\r\n"));
}
}
for (UScriptStruct* Struct : TFieldRange<UScriptStruct>(Class, EFieldIteratorFlags::ExcludeSuper))
{
if (Struct->StructFlags & STRUCT_Native)
{
Out.Logf( TEXT("\t\tUScriptStruct::DeferCppStructOps(FName(TEXT(\"%s\")),new UScriptStruct::TCppStructOps<%s%s>);\r\n"), *Struct->GetName(), Struct->GetPrefixCPP(), *Struct->GetName() );
}
}
Out.Logf(TEXT("\t}\r\n"));
}
void FNativeClassHeaderGenerator::ExportInterfaceCallFunctions(FOutputDevice& OutCpp, FUHTStringBuilder& Out, const TArray<UFunction*>& CallbackFunctions, const TCHAR* ClassName)
{
FString APIString = GetAPIString();
for (UFunction* Function : CallbackFunctions)
{
FString FunctionName = Function->GetName();
auto* CompilerInfo = FFunctionData::FindForFunction(Function);
const FFuncInfo& FunctionData = CompilerInfo->GetFunctionData();
const TCHAR* ConstQualifier = FunctionData.FunctionReference->HasAllFunctionFlags(FUNC_Const) ? TEXT("const ") : TEXT("");
FString ExtraParam = FString::Printf(TEXT("%sUObject* O"), ConstQualifier);
ExportNativeFunctionHeader(Out, ForwardDeclarations, FunctionData, EExportFunctionType::Interface, EExportFunctionHeaderStyle::Declaration, *ExtraParam, *APIString);
Out.Logf( TEXT(";") LINE_TERMINATOR );
FString FunctionNameName = FString::Printf(TEXT("NAME_%s_%s"), NameLookupCPP.GetNameCPP(CastChecked<UStruct>(Function->GetOuter())), *FunctionName);
OutCpp.Logf(TEXT("\tstatic FName %s = FName(TEXT(\"%s\"));") LINE_TERMINATOR, *FunctionNameName, *GetOverriddenFName(Function).ToString());
ExportNativeFunctionHeader(OutCpp, ForwardDeclarations, FunctionData, EExportFunctionType::Interface, EExportFunctionHeaderStyle::Definition, *ExtraParam, *APIString);
OutCpp.Logf( LINE_TERMINATOR TEXT("\t{") LINE_TERMINATOR );
OutCpp.Logf(TEXT("\t\tcheck(O != NULL);") LINE_TERMINATOR);
OutCpp.Logf(TEXT("\t\tcheck(O->GetClass()->ImplementsInterface(U%s::StaticClass()));") LINE_TERMINATOR, ClassName);
auto Parameters = GetFunctionParmsAndReturn(FunctionData.FunctionReference);
// See if we need to create Parms struct
const bool bHasParms = Parameters.HasParms();
if (bHasParms)
{
FString EventParmStructName = GetEventStructParamsName(Function->GetOuter(), *FunctionName);
OutCpp.Logf(TEXT("\t\t%s Parms;") LINE_TERMINATOR, *EventParmStructName);
}
OutCpp.Logf(TEXT("\t\tUFunction* const Func = O->FindFunction(%s);") LINE_TERMINATOR, *FunctionNameName);
OutCpp.Log(TEXT("\t\tif (Func)") LINE_TERMINATOR);
OutCpp.Log(TEXT("\t\t{") LINE_TERMINATOR);
// code to populate Parms struct
for (auto It = Parameters.Parms.CreateConstIterator(); It; ++It)
{
UProperty* Param = *It;
OutCpp.Logf(TEXT("\t\t\tParms.%s=%s;") LINE_TERMINATOR, *Param->GetName(), *Param->GetName());
}
const FString ObjectRef = FunctionData.FunctionReference->HasAllFunctionFlags(FUNC_Const) ? FString::Printf(TEXT("const_cast<UObject*>(O)")) : TEXT("O");
OutCpp.Logf(TEXT("\t\t\t%s->ProcessEvent(Func, %s);") LINE_TERMINATOR, *ObjectRef, bHasParms ? TEXT("&Parms") : TEXT("NULL"));
for (auto It = Parameters.Parms.CreateConstIterator(); It; ++It)
{
UProperty* Param = *It;
if( Param->HasAllPropertyFlags(CPF_OutParm) && !Param->HasAnyPropertyFlags(CPF_ConstParm|CPF_ReturnParm))
{
OutCpp.Logf(TEXT("\t\t\t%s=Parms.%s;") LINE_TERMINATOR, *Param->GetName(), *Param->GetName());
}
}
OutCpp.Log(TEXT("\t\t}") LINE_TERMINATOR);
// else clause to call back into native if it's a BlueprintNativeEvent
if (Function->FunctionFlags & FUNC_Native)
{
OutCpp.Logf(TEXT("\t\telse if (auto I = (%sI%s*)(O->GetNativeInterfaceAddress(U%s::StaticClass())))") LINE_TERMINATOR, ConstQualifier, ClassName, ClassName);
OutCpp.Log(TEXT("\t\t{") LINE_TERMINATOR);
OutCpp.Log(TEXT("\t\t\t"));
if (Parameters.Return)
{
OutCpp.Log(TEXT("Parms.ReturnValue = "));
}
OutCpp.Logf(TEXT("I->%s_Implementation("), *FunctionName);
bool First = true;
for (auto It = Parameters.Parms.CreateConstIterator(); It; ++It)
{
UProperty* Param = *It;
if (!First)
{
OutCpp.Logf(TEXT(","));
}
First = false;
OutCpp.Logf(TEXT("%s"), *Param->GetName());
}
OutCpp.Logf(TEXT(");") LINE_TERMINATOR);
OutCpp.Logf(TEXT("\t\t}") LINE_TERMINATOR);
}
if (Parameters.Return)
{
OutCpp.Logf(TEXT("\t\treturn Parms.ReturnValue;") LINE_TERMINATOR);
}
OutCpp.Logf(TEXT("\t}") LINE_TERMINATOR);
}
}
/**
* Gets preprocessor string to emit GENERATED_U*_BODY() macro is deprecated.
*
* @param MacroName Name of the macro to be deprecated.
*
* @returns Preprocessor string to emit the message.
*/
FString GetGeneratedMacroDeprecationWarning(const TCHAR* MacroName)
{
// Deprecation warning is disabled right now. After people get familiar with the new macro it should be re-enabled.
//return FString() + TEXT("EMIT_DEPRECATED_WARNING_MESSAGE(\"") + MacroName + TEXT("() macro is deprecated. Please use GENERATED_BODY() macro instead.\")") LINE_TERMINATOR;
return TEXT("");
}
/**
* Returns a string with access specifier that was met before parsing GENERATED_BODY() macro to preserve it.
*
* @param Class Class for which to return the access specifier.
*
* @returns Access specifier string.
*/
FString GetPreservedAccessSpecifierString(FClass* Class)
{
FString PreservedAccessSpecifier;
if (FClassMetaData* Data = GScriptHelper.FindClassData(Class))
{
switch (Data->GeneratedBodyMacroAccessSpecifier)
{
case EAccessSpecifier::ACCESS_Private:
PreservedAccessSpecifier = "private:";
break;
case EAccessSpecifier::ACCESS_Protected:
PreservedAccessSpecifier = "protected:";
break;
case EAccessSpecifier::ACCESS_Public:
PreservedAccessSpecifier = "public:";
break;
case EAccessSpecifier::ACCESS_NotAnAccessSpecifier :
PreservedAccessSpecifier = FString::Printf(TEXT("static_assert(false, \"Unknown access specifier for GENERATED_BODY() macro in class %s.\");"), *GetNameSafe(Class));
break;
}
}
return PreservedAccessSpecifier + LINE_TERMINATOR;
}
void WriteMacro(FOutputDevice& Output, const FString& MacroName, const FString& MacroContent)
{
Output.Log(*Macroize(*MacroName, *MacroContent));
}
static FString PrivatePropertiesOffsetGetters(const UStruct* Struct, const FString& StructCppName)
{
check(Struct);
FUHTStringBuilder Result;
for (const UProperty* Property : TFieldRange<UProperty>(Struct, EFieldIteratorFlags::ExcludeSuper))
{
if (Property && Property->HasAnyPropertyFlags(CPF_NativeAccessSpecifierPrivate | CPF_NativeAccessSpecifierProtected) && !Property->HasAnyPropertyFlags(CPF_EditorOnly))
{
const UBoolProperty* BoolProperty = Cast<const UBoolProperty>(Property);
if (BoolProperty && !BoolProperty->IsNativeBool()) // if it's a bitfield
{
continue;
}
FString PropertyName = Property->GetName();
if (Property->HasAllPropertyFlags(CPF_Deprecated))
{
PropertyName += TEXT("_DEPRECATED");
}
Result.Logf(TEXT("\tFORCEINLINE static uint32 __PPO__%s() { return STRUCT_OFFSET(%s, %s); }") LINE_TERMINATOR,
*PropertyName, *StructCppName, *PropertyName);
}
}
return Result;
}
void FNativeClassHeaderGenerator::ExportClassFromSourceFileInner(
FOutputDevice& OutGeneratedHeaderText,
FOutputDevice& OutCpp,
FOutputDevice& OutDeclarations,
FClass* Class,
const FUnrealSourceFile& SourceFile
)
{
FUHTStringBuilder StandardUObjectConstructorsMacroCall;
FUHTStringBuilder EnhancedUObjectConstructorsMacroCall;
FClassMetaData* ClassData = GScriptHelper.FindClassData(Class);
check(ClassData);
// C++ -> VM stubs (native function execs)
FUHTStringBuilder ClassMacroCalls;
FUHTStringBuilder ClassNoPureDeclsMacroCalls;
ExportNativeFunctions(OutGeneratedHeaderText, ClassMacroCalls, ClassNoPureDeclsMacroCalls, SourceFile, Class, ClassData);
// Get Callback functions
TArray<UFunction*> CallbackFunctions;
for (UFunction* Function : TFieldRange<UFunction>(Class, EFieldIteratorFlags::ExcludeSuper))
{
if ((Function->FunctionFlags & FUNC_Event) && Function->GetSuperFunction() == nullptr)
{
CallbackFunctions.Add(Function);
}
}
FUHTStringBuilder PrologMacroCalls;
if (CallbackFunctions.Num() != 0)
{
Algo::SortBy(CallbackFunctions, [](UObject* Obj) { return Obj->GetName(); });
FUHTStringBuilder UClassMacroContent;
// export parameters structs for all events and delegates
for (UFunction* Function : CallbackFunctions)
{
ExportEventParm(UClassMacroContent, ForwardDeclarations, Function, /*Indent=*/ 1, /*bOutputConstructor=*/ true, EExportingState::Normal);
}
FString MacroName = SourceFile.GetGeneratedMacroName(ClassData, TEXT("_EVENT_PARMS"));
WriteMacro(OutGeneratedHeaderText, MacroName, UClassMacroContent);
PrologMacroCalls.Logf(TEXT("\t%s\r\n"), *MacroName);
// VM -> C++ proxies (events and delegates).
FOutputDeviceNull NullOutput;
FOutputDevice& CallbackOut = Class->HasAnyClassFlags(CLASS_NoExport) ? NullOutput : OutCpp;
FString CallbackWrappersMacroName = SourceFile.GetGeneratedMacroName(ClassData, TEXT("_CALLBACK_WRAPPERS"));
ExportCallbackFunctions(
OutGeneratedHeaderText,
CallbackOut,
ForwardDeclarations,
CallbackFunctions,
*CallbackWrappersMacroName,
(Class->ClassFlags & CLASS_Interface) ? EExportCallbackType::Interface : EExportCallbackType::Class,
*GetAPIString()
);
ClassMacroCalls.Logf(TEXT("\t%s\r\n"), *CallbackWrappersMacroName);
ClassNoPureDeclsMacroCalls.Logf(TEXT("\t%s\r\n"), *CallbackWrappersMacroName);
}
// Class definition.
if (!Class->HasAnyClassFlags(CLASS_NoExport))
{
ExportNatives(OutCpp, Class);
}
FUHTStringBuilder FriendText;
ExportNativeGeneratedInitCode(OutCpp, OutDeclarations, SourceFile, Class, FriendText);
FClass* SuperClass = Class->GetSuperClass();
// the name for the C++ version of the UClass
const TCHAR* ClassCPPName = NameLookupCPP.GetNameCPP(Class);
const TCHAR* SuperClassCPPName = (SuperClass != nullptr) ? NameLookupCPP.GetNameCPP(SuperClass) : nullptr;
FString APIArg = API;
if (!Class->HasAnyClassFlags(CLASS_MinimalAPI))
{
APIArg = TEXT("NO");
}
FString PPOMacroName;
// Replication, add in the declaration for GetLifetimeReplicatedProps() automatically if there are any net flagged properties
bool bNeedsRep = false;
for (TFieldIterator<UProperty> It(Class, EFieldIteratorFlags::ExcludeSuper); It; ++It)
{
if ((It->PropertyFlags & CPF_Net) != 0)
{
bNeedsRep = true;
break;
}
}
ClassDefinitionRange ClassRange;
if (ClassDefinitionRange* FoundRange = ClassDefinitionRanges.Find(Class))
{
ClassRange = *FoundRange;
ClassRange.Validate();
}
bool bHasSerializeToFArchive = Class->HasMetaData(TEXT("SerializeToFArchive"));
bool bHasSerializeToFStructuredArchive = Class->HasMetaData(TEXT("SerializeToFStructuredArchive"));
FString GeneratedSerializeFunctionCPP;
FString GeneratedSerializeFunctionHeaderMacroName;
if (bHasSerializeToFArchive != bHasSerializeToFStructuredArchive)
{
FString EnclosingDefines;
FUHTStringBuilder Boilerplate, BoilerPlateCPP;
FString MacroNameHeader, MacroNameCPP;
GeneratedSerializeFunctionHeaderMacroName = SourceFile.GetGeneratedMacroName(ClassData, TEXT("_ARCHIVESERIALIZER"));
if (!bHasSerializeToFArchive)
{
EnclosingDefines = Class->GetMetaData(TEXT("SerializeToFStructuredArchive"));
MacroNameHeader = TEXT("DECLARE_FARCHIVE_SERIALIZER");
MacroNameCPP = TEXT("IMPLEMENT_FARCHIVE_SERIALIZER");
}
else
{
EnclosingDefines = Class->GetMetaData(TEXT("SerializeToFArchive"));
MacroNameHeader = TEXT("DECLARE_FSTRUCTUREDARCHIVE_SERIALIZER");
MacroNameCPP = TEXT("IMPLEMENT_FSTRUCTUREDARCHIVE_SERIALIZER");
}
// if the existing Serialize function was wrapped in a compiler define directive, we need to replicate that on the generated function
if (EnclosingDefines.Len())
{
OutGeneratedHeaderText.Logf(TEXT("#if %s\r\n"), *EnclosingDefines);
BoilerPlateCPP.Logf(TEXT("#if %s\r\n"), *EnclosingDefines);
}
Boilerplate.Logf(TEXT("\t%s(%s, %s_API)\r\n"), *MacroNameHeader, ClassCPPName, *APIArg);
OutGeneratedHeaderText.Log(Macroize(*GeneratedSerializeFunctionHeaderMacroName, *Boilerplate));
BoilerPlateCPP.Logf(TEXT("\t%s(%s)\r\n"), *MacroNameCPP, ClassCPPName);
if (EnclosingDefines.Len())
{
OutGeneratedHeaderText.Logf(TEXT("#else\r\n"));
OutGeneratedHeaderText.Log(Macroize(*GeneratedSerializeFunctionHeaderMacroName, TEXT("")));
OutGeneratedHeaderText.Logf(TEXT("#endif\r\n"));
BoilerPlateCPP.Logf(TEXT("#endif\r\n"));
}
GeneratedSerializeFunctionCPP = BoilerPlateCPP;
}
bool bHasGetLifetimeReplicatedProps = HasIdentifierExactMatch(ClassRange.Start, ClassRange.End, TEXT("GetLifetimeReplicatedProps"));
{
FUHTStringBuilder Boilerplate;
// Export the class's native function registration.
Boilerplate.Logf(TEXT("private:\r\n"));
Boilerplate.Logf(TEXT("\tstatic void StaticRegisterNatives%s();\r\n"), ClassCPPName);
Boilerplate.Log(*FriendText);
Boilerplate.Logf(TEXT("public:\r\n"));
const bool bCastedClass = Class->HasAnyCastFlag(CASTCLASS_AllFlags) && SuperClass && Class->ClassCastFlags != SuperClass->ClassCastFlags;
Boilerplate.Logf(TEXT("\tDECLARE_CLASS(%s, %s, COMPILED_IN_FLAGS(%s%s), %s, TEXT(\"%s\"), %s_API)\r\n"),
ClassCPPName,
SuperClassCPPName ? SuperClassCPPName : TEXT("None"),
Class->HasAnyClassFlags(CLASS_Abstract) ? TEXT("CLASS_Abstract") : TEXT("0"),
*GetClassFlagExportText(Class),
bCastedClass ? *FString::Printf(TEXT("CASTCLASS_%s"), ClassCPPName) : TEXT("CASTCLASS_None"),
*FClass::GetTypePackageName(Class),
*APIArg);
Boilerplate.Logf(TEXT("\tDECLARE_SERIALIZER(%s)\r\n"), ClassCPPName);
// Add the serialization function declaration if we generated one
if (GeneratedSerializeFunctionHeaderMacroName.Len() > 0)
{
Boilerplate.Logf(TEXT("\t%s\r\n"), *GeneratedSerializeFunctionHeaderMacroName);
}
if (SuperClass && Class->ClassWithin != SuperClass->ClassWithin)
{
Boilerplate.Logf(TEXT("\tDECLARE_WITHIN(%s)\r\n"), NameLookupCPP.GetNameCPP(Class->GetClassWithin()));
}
if (Class->HasAnyClassFlags(CLASS_Interface))
{
ExportConstructorsMacros(OutGeneratedHeaderText, OutCpp, StandardUObjectConstructorsMacroCall, EnhancedUObjectConstructorsMacroCall, SourceFile.GetGeneratedMacroName(ClassData), Class, *APIArg);
FString InterfaceMacroName = SourceFile.GetGeneratedMacroName(ClassData, TEXT("_GENERATED_UINTERFACE_BODY"));
OutGeneratedHeaderText.Log(Macroize(*(InterfaceMacroName + TEXT("()")), *Boilerplate));
int32 ClassGeneratedBodyLine = ClassData->GetGeneratedBodyLine();
FString DeprecationWarning = GetGeneratedMacroDeprecationWarning(TEXT("GENERATED_UINTERFACE_BODY"));
const TCHAR* DeprecationPushString = TEXT("PRAGMA_DISABLE_DEPRECATION_WARNINGS") LINE_TERMINATOR;
const TCHAR* DeprecationPopString = TEXT("PRAGMA_ENABLE_DEPRECATION_WARNINGS") LINE_TERMINATOR;
const TCHAR* Offset = TEXT("\t");
OutGeneratedHeaderText.Logf(
TEXT("%s"),
*Macroize(
*SourceFile.GetGeneratedBodyMacroName(ClassGeneratedBodyLine, true),
*(
FString() +
Offset + DeprecationWarning +
Offset + DeprecationPushString +
Offset + InterfaceMacroName + TEXT("()") LINE_TERMINATOR +
StandardUObjectConstructorsMacroCall +
Offset + DeprecationPopString
)
)
);
OutGeneratedHeaderText.Logf(
TEXT("%s"),
*Macroize(
*SourceFile.GetGeneratedBodyMacroName(ClassGeneratedBodyLine),
*(
FString() +
Offset + DeprecationPushString +
Offset + InterfaceMacroName + TEXT("()") LINE_TERMINATOR +
EnhancedUObjectConstructorsMacroCall +
GetPreservedAccessSpecifierString(Class) +
Offset + DeprecationPopString
)
)
);
// =============================================
// Export the pure interface version of the class
// the name of the pure interface class
FString InterfaceCPPName = FString::Printf(TEXT("I%s"), *Class->GetName());
FString SuperInterfaceCPPName;
if (SuperClass != NULL)
{
SuperInterfaceCPPName = FString::Printf(TEXT("I%s"), *SuperClass->GetName());
}
// Thunk functions
FUHTStringBuilder InterfaceBoilerplate;
InterfaceBoilerplate.Logf(TEXT("protected:\r\n\tvirtual ~%s() {}\r\n"), *InterfaceCPPName);
InterfaceBoilerplate.Logf(TEXT("public:\r\n\ttypedef %s UClassType;\r\n"), ClassCPPName);
InterfaceBoilerplate.Logf(TEXT("\ttypedef %s ThisClass;\r\n"), *InterfaceCPPName);
ExportInterfaceCallFunctions(OutCpp, InterfaceBoilerplate, CallbackFunctions, *Class->GetName());
// we'll need a way to get to the UObject portion of a native interface, so that we can safely pass native interfaces
// to script VM functions
if (SuperClass->IsChildOf(UInterface::StaticClass()))
{
// Note: This used to be declared as a pure virtual function, but it was changed here in order to allow the Blueprint nativization process
// to detect C++ interface classes that explicitly declare pure virtual functions via type traits. This code will no longer trigger that check.
InterfaceBoilerplate.Logf(TEXT("\tvirtual UObject* _getUObject() const { check(0 && \"Missing required implementation.\"); return nullptr; }\r\n"));
}
if (bNeedsRep && !bHasGetLifetimeReplicatedProps)
{
if (SourceFile.GetGeneratedCodeVersionForStruct(Class) == EGeneratedCodeVersion::V1)
{
InterfaceBoilerplate.Logf(TEXT("\tvoid GetLifetimeReplicatedProps(TArray<FLifetimeProperty>& OutLifetimeProps) const override;\r\n"));
}
else
{
FError::Throwf(TEXT("Class %s has Net flagged properties and should declare member function: void GetLifetimeReplicatedProps(TArray<FLifetimeProperty>& OutLifetimeProps) const override"), ClassCPPName);
}
}
FString NoPureDeclsMacroName = SourceFile.GetGeneratedMacroName(ClassData, TEXT("_INCLASS_IINTERFACE_NO_PURE_DECLS"));
WriteMacro(OutGeneratedHeaderText, NoPureDeclsMacroName, InterfaceBoilerplate);
ClassNoPureDeclsMacroCalls.Logf(TEXT("\t%s\r\n"), *NoPureDeclsMacroName);
FString MacroName = SourceFile.GetGeneratedMacroName(ClassData, TEXT("_INCLASS_IINTERFACE"));
WriteMacro(OutGeneratedHeaderText, MacroName, InterfaceBoilerplate);
ClassMacroCalls.Logf(TEXT("\t%s\r\n"), *MacroName);
}
else
{
// export the class's config name
if (SuperClass && Class->ClassConfigName != NAME_None && Class->ClassConfigName != SuperClass->ClassConfigName)
{
Boilerplate.Logf(TEXT("\tstatic const TCHAR* StaticConfigName() {return TEXT(\"%s\");}\r\n\r\n"), *Class->ClassConfigName.ToString());
}
// export implementation of _getUObject for classes that implement interfaces
if (Class->Interfaces.Num() > 0)
{
Boilerplate.Logf(TEXT("\tvirtual UObject* _getUObject() const override { return const_cast<%s*>(this); }\r\n"), ClassCPPName);
}
if (bNeedsRep && !bHasGetLifetimeReplicatedProps)
{
// Default version autogenerates declarations.
if (SourceFile.GetGeneratedCodeVersionForStruct(Class) == EGeneratedCodeVersion::V1)
{
Boilerplate.Logf(TEXT("\tvoid GetLifetimeReplicatedProps(TArray<FLifetimeProperty>& OutLifetimeProps) const override;\r\n"));
}
else
{
FError::Throwf(TEXT("Class %s has Net flagged properties and should declare member function: void GetLifetimeReplicatedProps(TArray<FLifetimeProperty>& OutLifetimeProps) const override"), ClassCPPName);
}
}
{
FString NoPureDeclsMacroName = SourceFile.GetGeneratedMacroName(ClassData, TEXT("_INCLASS_NO_PURE_DECLS"));
WriteMacro(OutGeneratedHeaderText, NoPureDeclsMacroName, Boilerplate);
ClassNoPureDeclsMacroCalls.Logf(TEXT("\t%s\r\n"), *NoPureDeclsMacroName);
FString MacroName = SourceFile.GetGeneratedMacroName(ClassData, TEXT("_INCLASS"));
WriteMacro(OutGeneratedHeaderText, MacroName, Boilerplate);
ClassMacroCalls.Logf(TEXT("\t%s\r\n"), *MacroName);
ExportConstructorsMacros(OutGeneratedHeaderText, OutCpp, StandardUObjectConstructorsMacroCall, EnhancedUObjectConstructorsMacroCall, SourceFile.GetGeneratedMacroName(ClassData), Class, *APIArg);
}
{
const FString PrivatePropertiesOffsets = PrivatePropertiesOffsetGetters(Class, ClassCPPName);
const FString PPOMacroNameRaw = SourceFile.GetGeneratedMacroName(ClassData, TEXT("_PRIVATE_PROPERTY_OFFSET"));
PPOMacroName = FString::Printf(TEXT("\t%s\r\n"), *PPOMacroNameRaw);
WriteMacro(OutGeneratedHeaderText, PPOMacroNameRaw, PrivatePropertiesOffsets);
}
}
}
{
FString MacroName = SourceFile.GetGeneratedMacroName(ClassData->GetPrologLine(), TEXT("_PROLOG"));
WriteMacro(OutGeneratedHeaderText, MacroName, PrologMacroCalls);
}
{
bool bIsIInterface = Class->HasAnyClassFlags(CLASS_Interface);
auto MacroName = FString::Printf(TEXT("GENERATED_%s_BODY()"), bIsIInterface ? TEXT("IINTERFACE") : TEXT("UCLASS"));
auto DeprecationWarning = bIsIInterface ? FString(TEXT("")) : GetGeneratedMacroDeprecationWarning(*MacroName);
auto DeprecationPushString = TEXT("PRAGMA_DISABLE_DEPRECATION_WARNINGS") LINE_TERMINATOR;
auto DeprecationPopString = TEXT("PRAGMA_ENABLE_DEPRECATION_WARNINGS") LINE_TERMINATOR;
auto Public = TEXT("public:" LINE_TERMINATOR);
auto GeneratedBodyLine = bIsIInterface ? ClassData->GetInterfaceGeneratedBodyLine() : ClassData->GetGeneratedBodyLine();
auto LegacyGeneratedBody = FString(bIsIInterface ? TEXT("") : PPOMacroName)
+ ClassMacroCalls
+ (bIsIInterface ? TEXT("") : StandardUObjectConstructorsMacroCall);
auto GeneratedBody = FString(bIsIInterface ? TEXT("") : PPOMacroName)
+ ClassNoPureDeclsMacroCalls
+ (bIsIInterface ? TEXT("") : EnhancedUObjectConstructorsMacroCall);
auto WrappedLegacyGeneratedBody = DeprecationWarning + DeprecationPushString + Public + LegacyGeneratedBody + Public + DeprecationPopString;
auto WrappedGeneratedBody = FString(DeprecationPushString) + Public + GeneratedBody + GetPreservedAccessSpecifierString(Class) + DeprecationPopString;
auto BodyMacros = Macroize(*SourceFile.GetGeneratedBodyMacroName(GeneratedBodyLine, true), *WrappedLegacyGeneratedBody) +
Macroize(*SourceFile.GetGeneratedBodyMacroName(GeneratedBodyLine, false), *WrappedGeneratedBody);
OutGeneratedHeaderText.Log(*BodyMacros);
}
// If there is a serialization function implementation for the CPP file, add it now
if (GeneratedSerializeFunctionCPP.Len())
{
OutCpp.Log(GeneratedSerializeFunctionCPP);
}
}
/**
* Generates private copy-constructor declaration.
*
* @param Out Output device to generate to.
* @param Class Class to generate constructor for.
* @param API API string for this constructor.
*/
void ExportCopyConstructorDefinition(FOutputDevice& Out, const TCHAR* API, const TCHAR* ClassCPPName)
{
Out.Logf(TEXT("private:\r\n"));
Out.Logf(TEXT("\t/** Private move- and copy-constructors, should never be used */\r\n"));
Out.Logf(TEXT("\t%s_API %s(%s&&);\r\n"), API, ClassCPPName, ClassCPPName);
Out.Logf(TEXT("\t%s_API %s(const %s&);\r\n"), API, ClassCPPName, ClassCPPName);
Out.Logf(TEXT("public:\r\n"));
}
/**
* Generates vtable helper caller and eventual constructor body.
*
* @param Out Output device to generate to.
* @param Class Class to generate for.
* @param API API string.
*/
void ExportVTableHelperCtorAndCaller(FOutputDevice& Out, FClassMetaData* ClassData, const TCHAR* API, const TCHAR* ClassCPPName)
{
if (!ClassData->bCustomVTableHelperConstructorDeclared)
{
Out.Logf(TEXT("\tDECLARE_VTABLE_PTR_HELPER_CTOR(%s_API, %s);" LINE_TERMINATOR), API, ClassCPPName);
}
Out.Logf(TEXT("DEFINE_VTABLE_PTR_HELPER_CTOR_CALLER(%s);" LINE_TERMINATOR), ClassCPPName);
}
/**
* Generates standard constructor declaration.
*
* @param Out Output device to generate to.
* @param Class Class to generate constructor for.
* @param API API string for this constructor.
*/
void ExportStandardConstructorsMacro(FOutputDevice& Out, FClass* Class, FClassMetaData* ClassData, const TCHAR* API, const TCHAR* ClassCPPName)
{
if (!Class->HasAnyClassFlags(CLASS_CustomConstructor))
{
Out.Logf(TEXT("\t/** Standard constructor, called after all reflected properties have been initialized */\r\n"));
Out.Logf(TEXT("\t%s_API %s(const FObjectInitializer& ObjectInitializer%s);\r\n"), API, ClassCPPName,
ClassData->bDefaultConstructorDeclared ? TEXT("") : TEXT(" = FObjectInitializer::Get()"));
}
Out.Logf(TEXT("\tDEFINE_DEFAULT_OBJECT_INITIALIZER_CONSTRUCTOR_CALL(%s)\r\n"), ClassCPPName);
ExportVTableHelperCtorAndCaller(Out, ClassData, API, ClassCPPName);
ExportCopyConstructorDefinition(Out, API, ClassCPPName);
}
/**
* Generates constructor definition.
*
* @param Out Output device to generate to.
* @param Class Class to generate constructor for.
* @param API API string for this constructor.
*/
void ExportConstructorDefinition(FOutputDevice& Out, FClass* Class, FClassMetaData* ClassData, const TCHAR* API, const TCHAR* ClassCPPName)
{
if (!ClassData->bConstructorDeclared)
{
Out.Logf(TEXT("\t/** Standard constructor, called after all reflected properties have been initialized */\r\n"));
// Assume super class has OI constructor, this may not always be true but we should always be able to check this.
// In any case, it will default to old behaviour before we even checked this.
bool bSuperClassObjectInitializerConstructorDeclared = true;
FClass* SuperClass = Class->GetSuperClass();
if (SuperClass != nullptr)
{
FClassMetaData* SuperClassData = GScriptHelper.FindClassData(SuperClass);
if (SuperClassData)
{
bSuperClassObjectInitializerConstructorDeclared = SuperClassData->bObjectInitializerConstructorDeclared;
}
}
if (bSuperClassObjectInitializerConstructorDeclared)
{
Out.Logf(TEXT("\t%s_API %s(const FObjectInitializer& ObjectInitializer = FObjectInitializer::Get()) : Super(ObjectInitializer) { };\r\n"), API, ClassCPPName);
ClassData->bObjectInitializerConstructorDeclared = true;
}
else
{
Out.Logf(TEXT("\t%s_API %s() { };\r\n"), API, ClassCPPName);
ClassData->bDefaultConstructorDeclared = true;
}
ClassData->bConstructorDeclared = true;
}
ExportCopyConstructorDefinition(Out, API, ClassCPPName);
}
/**
* Generates constructor call definition.
*
* @param Out Output device to generate to.
* @param Class Class to generate constructor call definition for.
*/
void ExportDefaultConstructorCallDefinition(FOutputDevice& Out, FClassMetaData* ClassData, const TCHAR* ClassCPPName)
{
if (ClassData->bObjectInitializerConstructorDeclared)
{
Out.Logf(TEXT("\tDEFINE_DEFAULT_OBJECT_INITIALIZER_CONSTRUCTOR_CALL(%s)\r\n"), ClassCPPName);
}
else if (ClassData->bDefaultConstructorDeclared)
{
Out.Logf(TEXT("\tDEFINE_DEFAULT_CONSTRUCTOR_CALL(%s)\r\n"), ClassCPPName);
}
else
{
Out.Logf(TEXT("\tDEFINE_FORBIDDEN_DEFAULT_CONSTRUCTOR_CALL(%s)\r\n"), ClassCPPName);
}
}
/**
* Generates enhanced constructor declaration.
*
* @param Out Output device to generate to.
* @param Class Class to generate constructor for.
* @param API API string for this constructor.
*/
void ExportEnhancedConstructorsMacro(FOutputDevice& Out, FClass* Class, FClassMetaData* ClassData, const TCHAR* API, const TCHAR* ClassCPPName)
{
ExportConstructorDefinition(Out, Class, ClassData, API, ClassCPPName);
ExportVTableHelperCtorAndCaller(Out, ClassData, API, ClassCPPName);
ExportDefaultConstructorCallDefinition(Out, ClassData, ClassCPPName);
}
/**
* Gets a package relative inclusion path of the given source file for build.
*
* @param SourceFile Given source file.
*
* @returns Inclusion path.
*/
FString GetBuildPath(FUnrealSourceFile& SourceFile)
{
FString Out = SourceFile.GetFilename();
ConvertToBuildIncludePath(SourceFile.GetPackage(), Out);
return Out;
}
void FNativeClassHeaderGenerator::ExportConstructorsMacros(FOutputDevice& OutGeneratedHeaderText, FOutputDevice& Out, FOutputDevice& StandardUObjectConstructorsMacroCall, FOutputDevice& EnhancedUObjectConstructorsMacroCall, const FString& ConstructorsMacroPrefix, FClass* Class, const TCHAR* APIArg)
{
const TCHAR* ClassCPPName = NameLookupCPP.GetNameCPP(Class);
FClassMetaData* ClassData = GScriptHelper.FindClassData(Class);
check(ClassData);
FUHTStringBuilder StdMacro;
FUHTStringBuilder EnhMacro;
FString StdMacroName = ConstructorsMacroPrefix + TEXT("_STANDARD_CONSTRUCTORS");
FString EnhMacroName = ConstructorsMacroPrefix + TEXT("_ENHANCED_CONSTRUCTORS");
ExportStandardConstructorsMacro(StdMacro, Class, ClassData, APIArg, ClassCPPName);
ExportEnhancedConstructorsMacro(EnhMacro, Class, ClassData, APIArg, ClassCPPName);
if (!ClassData->bCustomVTableHelperConstructorDeclared)
{
Out.Logf(TEXT("\tDEFINE_VTABLE_PTR_HELPER_CTOR(%s);" LINE_TERMINATOR), ClassCPPName);
}
OutGeneratedHeaderText.Log(*Macroize(*StdMacroName, *StdMacro));
OutGeneratedHeaderText.Log(*Macroize(*EnhMacroName, *EnhMacro));
StandardUObjectConstructorsMacroCall.Logf(TEXT("\t%s\r\n"), *StdMacroName);
EnhancedUObjectConstructorsMacroCall.Logf(TEXT("\t%s\r\n"), *EnhMacroName);
}
bool FNativeClassHeaderGenerator::WriteHeader(const TCHAR* Path, const FString& InBodyText, const TSet<FString>& InFwdDecl)
{
FUHTStringBuilder GeneratedHeaderTextWithCopyright;
GeneratedHeaderTextWithCopyright.Logf(TEXT("%s"), HeaderCopyright);
GeneratedHeaderTextWithCopyright.Log(TEXT("#include \"UObject/ObjectMacros.h\"\r\n"));
GeneratedHeaderTextWithCopyright.Log(TEXT("#include \"UObject/ScriptMacros.h\"\r\n"));
GeneratedHeaderTextWithCopyright.Log(LINE_TERMINATOR);
GeneratedHeaderTextWithCopyright.Log(TEXT("PRAGMA_DISABLE_DEPRECATION_WARNINGS") LINE_TERMINATOR);
for (const FString& FWDecl : InFwdDecl)
{
if (FWDecl.Len() > 0)
{
GeneratedHeaderTextWithCopyright.Logf(TEXT("%s\r\n"), *FWDecl);
}
}
GeneratedHeaderTextWithCopyright.Log(*InBodyText);
GeneratedHeaderTextWithCopyright.Log(TEXT("PRAGMA_ENABLE_DEPRECATION_WARNINGS") LINE_TERMINATOR);
bool bHasChanged = SaveHeaderIfChanged(Path, *GeneratedHeaderTextWithCopyright);
return bHasChanged;
}
/**
* Returns a string in the format CLASS_Something|CLASS_Something which represents all class flags that are set for the specified
* class which need to be exported as part of the DECLARE_CLASS macro
*/
FString FNativeClassHeaderGenerator::GetClassFlagExportText( UClass* Class )
{
FString StaticClassFlagText;
check(Class);
if ( Class->HasAnyClassFlags(CLASS_Transient) )
{
StaticClassFlagText += TEXT(" | CLASS_Transient");
}
if( Class->HasAnyClassFlags(CLASS_DefaultConfig) )
{
StaticClassFlagText += TEXT(" | CLASS_DefaultConfig");
}
if( Class->HasAnyClassFlags(CLASS_GlobalUserConfig) )
{
StaticClassFlagText += TEXT(" | CLASS_GlobalUserConfig");
}
if( Class->HasAnyClassFlags(CLASS_Config) )
{
StaticClassFlagText += TEXT(" | CLASS_Config");
}
if ( Class->HasAnyClassFlags(CLASS_Interface) )
{
StaticClassFlagText += TEXT(" | CLASS_Interface");
}
if ( Class->HasAnyClassFlags(CLASS_Deprecated) )
{
StaticClassFlagText += TEXT(" | CLASS_Deprecated");
}
return StaticClassFlagText;
}
/**
* Exports the header text for the list of enums specified
*
* @param Enums the enums to export
*/
void FNativeClassHeaderGenerator::ExportEnum(FOutputDevice& Out, UEnum* Enum)
{
// Export FOREACH macro
Out.Logf( TEXT("#define FOREACH_ENUM_%s(op) "), *Enum->GetName().ToUpper() );
bool bHasExistingMax = Enum->ContainsExistingMax();
int64 MaxEnumVal = bHasExistingMax ? Enum->GetMaxEnumValue() : 0;
for (int32 i = 0; i < Enum->NumEnums(); i++)
{
if (bHasExistingMax && Enum->GetValueByIndex(i) == MaxEnumVal)
{
continue;
}
const FString QualifiedEnumValue = Enum->GetNameByIndex(i).ToString();
Out.Logf( TEXT("\\\r\n\top(%s) "), *QualifiedEnumValue );
}
Out.Logf( TEXT("\r\n") );
}
// Exports the header text for the list of structs specified (GENERATED_BODY impls)
void FNativeClassHeaderGenerator::ExportGeneratedStructBodyMacros(FOutputDevice& OutGeneratedHeaderText, FOutputDevice& Out, const FUnrealSourceFile& SourceFile, UScriptStruct* Struct)
{
const bool bIsDynamic = FClass::IsDynamic(Struct);
const FString ActualStructName = FNativeClassHeaderGenerator::GetOverriddenName(Struct);
const FString FriendApiString = GetAPIString();
UStruct* BaseStruct = Struct->GetSuperStruct();
const TCHAR* StructNameCPP = NameLookupCPP.GetNameCPP(Struct);
const FString SingletonName = GetSingletonName(Struct);
// Export struct.
if (Struct->StructFlags & STRUCT_Native)
{
check(Struct->StructMacroDeclaredLineNumber != INDEX_NONE);
FString RequiredAPI;
if (!(Struct->StructFlags & STRUCT_RequiredAPI))
{
RequiredAPI = FriendApiString;
}
const FString FriendLine = FString::Printf(TEXT("\tfriend struct %s_Statics;\r\n"), *SingletonName.LeftChop(2));
const FString StaticClassLine = FString::Printf(TEXT("\t%sstatic class UScriptStruct* StaticStruct();\r\n"), *RequiredAPI);
const FString PrivatePropertiesOffset = PrivatePropertiesOffsetGetters(Struct, StructNameCPP);
const FString SuperTypedef = BaseStruct ? FString::Printf(TEXT("\ttypedef %s Super;\r\n"), NameLookupCPP.GetNameCPP(BaseStruct)) : FString();
const FString CombinedLine = FriendLine + StaticClassLine + PrivatePropertiesOffset + SuperTypedef;
const FString MacroName = SourceFile.GetGeneratedBodyMacroName(Struct->StructMacroDeclaredLineNumber);
const FString Macroized = Macroize(*MacroName, *CombinedLine);
OutGeneratedHeaderText.Log(*Macroized);
FString GetCRCName = FString::Printf(TEXT("Get_%s_CRC"), *SingletonName.LeftChop(2));
Out.Logf(TEXT("class UScriptStruct* %s::StaticStruct()\r\n"), StructNameCPP);
Out.Logf(TEXT("{\r\n"));
// UStructs can have UClass or UPackage outer (if declared in non-UClass headers).
FString OuterName;
if (!bIsDynamic)
{
OuterName = GetPackageSingletonName(CastChecked<UPackage>(Struct->GetOuter()));
Out.Logf(TEXT("\tstatic class UScriptStruct* Singleton = NULL;\r\n"));
}
else
{
OuterName = TEXT("StructPackage");
Out.Logf(TEXT("\tclass UPackage* %s = FindOrConstructDynamicTypePackage(TEXT(\"%s\"));\r\n"), *OuterName, *FClass::GetTypePackageName(Struct));
Out.Logf(TEXT("\tclass UScriptStruct* Singleton = Cast<UScriptStruct>(StaticFindObjectFast(UScriptStruct::StaticClass(), %s, TEXT(\"%s\")));\r\n"), *OuterName, *ActualStructName);
}
Out.Logf(TEXT("\tif (!Singleton)\r\n"));
Out.Logf(TEXT("\t{\r\n"));
Out.Logf(TEXT("\t\textern %suint32 %s();\r\n"), *FriendApiString, *GetCRCName);
Out.Logf(TEXT("\t\tSingleton = GetStaticStruct(%s, %s, TEXT(\"%s\"), sizeof(%s), %s());\r\n"),
*SingletonName.LeftChop(2), *OuterName, *ActualStructName, StructNameCPP, *GetCRCName);
Out.Logf(TEXT("\t}\r\n"));
Out.Logf(TEXT("\treturn Singleton;\r\n"));
Out.Logf(TEXT("}\r\n"));
Out.Logf(TEXT("static FCompiledInDeferStruct Z_CompiledInDeferStruct_UScriptStruct_%s(%s::StaticStruct, TEXT(\"%s\"), TEXT(\"%s\"), %s, %s, %s);\r\n"),
StructNameCPP,
StructNameCPP,
bIsDynamic ? *FClass::GetTypePackageName(Struct) : *Struct->GetOutermost()->GetName(),
*ActualStructName,
bIsDynamic ? TEXT("true") : TEXT("false"),
bIsDynamic ? *AsTEXT(FClass::GetTypePackageName(Struct)) : TEXT("nullptr"),
bIsDynamic ? *AsTEXT(FNativeClassHeaderGenerator::GetOverriddenPathName(Struct)) : TEXT("nullptr"));
// Generate StaticRegisterNatives equivalent for structs without classes.
if (!Struct->GetOuter()->IsA(UStruct::StaticClass()))
{
const FString ShortPackageName = FPackageName::GetShortName(Struct->GetOuter()->GetName());
Out.Logf(TEXT("static struct FScriptStruct_%s_StaticRegisterNatives%s\r\n"), *ShortPackageName, StructNameCPP);
Out.Logf(TEXT("{\r\n"));
Out.Logf(TEXT("\tFScriptStruct_%s_StaticRegisterNatives%s()\r\n"), *ShortPackageName, StructNameCPP);
Out.Logf(TEXT("\t{\r\n"));
Out.Logf(TEXT("\t\tUScriptStruct::DeferCppStructOps(FName(TEXT(\"%s\")),new UScriptStruct::TCppStructOps<%s>);\r\n"), *ActualStructName, StructNameCPP);
Out.Logf(TEXT("\t}\r\n"));
Out.Logf(TEXT("} ScriptStruct_%s_StaticRegisterNatives%s;\r\n"), *ShortPackageName, StructNameCPP);
}
}
FString StaticsStructName = SingletonName.LeftChop(2) + TEXT("_Statics");
FUHTStringBuilder GeneratedStructRegisterFunctionText;
FUHTStringBuilder StaticDefinitions;
GeneratedStructRegisterFunctionText.Logf(TEXT("\tstruct %s\r\n"), *StaticsStructName);
GeneratedStructRegisterFunctionText.Logf(TEXT("\t{\r\n"));
// if this is a no export struct, we will put a local struct here for offset determination
TArray<UScriptStruct*> NoExportStructs = FindNoExportStructs(Struct);
for (UScriptStruct* NoExportStruct : NoExportStructs)
{
ExportMirrorsForNoexportStruct(GeneratedStructRegisterFunctionText, NoExportStruct, /*Indent=*/ 2);
}
FString BaseStructString;
if (BaseStruct)
{
CastChecked<UScriptStruct>(BaseStruct); // this better actually be a script struct
BaseStructString = GetSingletonName(BaseStruct);
}
else
{
BaseStructString = TEXT("nullptr");
}
EStructFlags UncomputedFlags = (EStructFlags)(Struct->StructFlags & ~STRUCT_ComputedFlags);
FString OuterFunc;
if (!bIsDynamic)
{
OuterFunc = GetPackageSingletonName(CastChecked<UPackage>(Struct->GetOuter())).LeftChop(2);
}
else
{
GeneratedStructRegisterFunctionText.Log(TEXT("\t\tstatic UObject* OuterFuncGetter();\r\n"));
StaticDefinitions.Logf(TEXT("\tUObject* %s::OuterFuncGetter()\r\n"), *StaticsStructName);
StaticDefinitions.Log (TEXT("\t{\r\n"));
StaticDefinitions.Logf(TEXT("\t\treturn FindOrConstructDynamicTypePackage(TEXT(\"%s\"));"), *FClass::GetTypePackageName(Struct));
StaticDefinitions.Log (TEXT("\t}\r\n"));
OuterFunc = TEXT("&OuterFuncGetter");
}
FString MetaDataParams = OutputMetaDataCodeForObject(GeneratedStructRegisterFunctionText, StaticDefinitions, Struct, *FString::Printf(TEXT("%s::Struct_MetaDataParams"), *StaticsStructName), TEXT("\t\t"), TEXT("\t"));
TArray<UProperty*> Props;
Algo::Copy(TFieldRange<UProperty>(Struct, EFieldIteratorFlags::ExcludeSuper), Props);
FString NewStructOps;
if (Struct->StructFlags & STRUCT_Native)
{
GeneratedStructRegisterFunctionText.Log(TEXT("\t\tstatic void* NewStructOps();\r\n"));
StaticDefinitions.Logf(TEXT("\tvoid* %s::NewStructOps()\r\n"), *StaticsStructName);
StaticDefinitions.Log (TEXT("\t{\r\n"));
StaticDefinitions.Logf(TEXT("\t\treturn (UScriptStruct::ICppStructOps*)new UScriptStruct::TCppStructOps<%s>();\r\n"), StructNameCPP);
StaticDefinitions.Log (TEXT("\t}\r\n"));
NewStructOps = TEXT("&NewStructOps");
}
else
{
NewStructOps = TEXT("nullptr");
}
FString PropertyRange = OutputProperties(GeneratedStructRegisterFunctionText, StaticDefinitions, *FString::Printf(TEXT("%s::"), *StaticsStructName), Props, TEXT("\t\t"), TEXT("\t"));
GeneratedStructRegisterFunctionText.Log (TEXT("\t\tstatic const UE4CodeGen_Private::FStructParams ReturnStructParams;\r\n"));
StaticDefinitions.Logf(TEXT("\tconst UE4CodeGen_Private::FStructParams %s::ReturnStructParams = {\r\n"), *StaticsStructName);
StaticDefinitions.Logf(TEXT("\t\t(UObject* (*)())%s,\r\n"), *OuterFunc);
StaticDefinitions.Logf(TEXT("\t\t%s,\r\n"), *GetSingletonNameFuncAddr(BaseStruct));
StaticDefinitions.Logf(TEXT("\t\t%s,\r\n"), *NewStructOps);
StaticDefinitions.Logf(TEXT("\t\t%s,\r\n"), *CreateUTF8LiteralString(ActualStructName));
StaticDefinitions.Logf(TEXT("\t\t%s,\r\n"), bIsDynamic ? TEXT("RF_Public|RF_Transient") : TEXT("RF_Public|RF_Transient|RF_MarkAsNative"));
StaticDefinitions.Logf(TEXT("\t\tEStructFlags(0x%08X),\r\n"), (uint32)UncomputedFlags);
StaticDefinitions.Logf(TEXT("\t\tsizeof(%s),\r\n"), StructNameCPP);
StaticDefinitions.Logf(TEXT("\t\talignof(%s),\r\n"), StructNameCPP);
StaticDefinitions.Logf(TEXT("\t\t%s,\r\n"), *PropertyRange);
StaticDefinitions.Logf(TEXT("\t\t%s\r\n"), *MetaDataParams);
StaticDefinitions.Log (TEXT("\t};\r\n"));
GeneratedStructRegisterFunctionText.Log (TEXT("\t};\r\n"));
GeneratedStructRegisterFunctionText.Log(StaticDefinitions);
GeneratedStructRegisterFunctionText.Logf(TEXT("\tUScriptStruct* %s\r\n"), *SingletonName);
GeneratedStructRegisterFunctionText.Log (TEXT("\t{\r\n"));
FString NoExportStructNameCPP;
if (NoExportStructs.Contains(Struct))
{
NoExportStructNameCPP = FString::Printf(TEXT("%s::%s"), *StaticsStructName, StructNameCPP);
}
else
{
NoExportStructNameCPP = StructNameCPP;
}
FString CRCFuncName = FString::Printf(TEXT("Get_%s_CRC"), *SingletonName.Replace(TEXT("()"), TEXT(""), ESearchCase::CaseSensitive));
// Structs can either have a UClass or UPackage as outer (if declared in non-UClass header).
if (!bIsDynamic)
{
GeneratedStructRegisterFunctionText.Log (TEXT("#if WITH_HOT_RELOAD\r\n"));
GeneratedStructRegisterFunctionText.Logf(TEXT("\t\textern uint32 %s();\r\n"), *CRCFuncName);
GeneratedStructRegisterFunctionText.Logf(TEXT("\t\tUPackage* Outer = %s;\r\n"), *GetPackageSingletonName(CastChecked<UPackage>(Struct->GetOuter())));
GeneratedStructRegisterFunctionText.Logf(TEXT("\t\tstatic UScriptStruct* ReturnStruct = FindExistingStructIfHotReloadOrDynamic(Outer, TEXT(\"%s\"), sizeof(%s), %s(), false);\r\n"), *ActualStructName, *NoExportStructNameCPP, *CRCFuncName);
GeneratedStructRegisterFunctionText.Log (TEXT("#else\r\n"));
GeneratedStructRegisterFunctionText.Logf(TEXT("\t\tstatic UScriptStruct* ReturnStruct = nullptr;\r\n"));
GeneratedStructRegisterFunctionText.Log (TEXT("#endif\r\n"));
}
else
{
GeneratedStructRegisterFunctionText.Logf(TEXT("\t\textern uint32 %s();\r\n"), *CRCFuncName);
GeneratedStructRegisterFunctionText.Logf(TEXT("\t\tUPackage* Outer = FindOrConstructDynamicTypePackage(TEXT(\"%s\"));\r\n"), *FClass::GetTypePackageName(Struct));
GeneratedStructRegisterFunctionText.Logf(TEXT("\t\tUScriptStruct* ReturnStruct = FindExistingStructIfHotReloadOrDynamic(Outer, TEXT(\"%s\"), sizeof(%s), %s(), true);\r\n"), *ActualStructName, *NoExportStructNameCPP, *CRCFuncName);
}
GeneratedStructRegisterFunctionText.Logf(TEXT("\t\tif (!ReturnStruct)\r\n"));
GeneratedStructRegisterFunctionText.Log (TEXT("\t\t{\r\n"));
GeneratedStructRegisterFunctionText.Logf(TEXT("\t\t\tUE4CodeGen_Private::ConstructUScriptStruct(ReturnStruct, %s::ReturnStructParams);\r\n"), *StaticsStructName);
GeneratedStructRegisterFunctionText.Log (TEXT("\t\t}\r\n"));
GeneratedStructRegisterFunctionText.Logf(TEXT("\t\treturn ReturnStruct;\r\n"));
GeneratedStructRegisterFunctionText.Log (TEXT("\t}\r\n"));
uint32 StructCrc = GenerateTextCRC(*GeneratedStructRegisterFunctionText);
GGeneratedCodeCRCs.Add(Struct, StructCrc);
Out.Log(GeneratedStructRegisterFunctionText);
Out.Logf(TEXT("\tuint32 %s() { return %uU; }\r\n"), *CRCFuncName, StructCrc);
}
void FNativeClassHeaderGenerator::ExportGeneratedEnumInitCode(FOutputDevice& Out, const FUnrealSourceFile& SourceFile, UEnum* Enum)
{
const bool bIsDynamic = FClass::IsDynamic(Enum);
const FString SingletonName = GetSingletonNameFuncAddr(Enum);
const FString EnumNameCpp = Enum->GetName(); //UserDefinedEnum should already have a valid cpp name.
const FString OverriddenEnumNameCpp = FNativeClassHeaderGenerator::GetOverriddenName(Enum);
const bool bIsEditorOnlyDataType = GEditorOnlyDataTypes.Contains(Enum);
FMacroBlockEmitter EditorOnlyData(Out, TEXT("WITH_EDITORONLY_DATA"));
EditorOnlyData(bIsEditorOnlyDataType);
FString PackageSingletonName;
if (!bIsDynamic)
{
PackageSingletonName = GetPackageSingletonName(CastChecked<UPackage>(Enum->GetOuter()));
}
else
{
PackageSingletonName = FClass::GetTypePackageName(Enum);
}
Out.Logf(TEXT("\tstatic UEnum* %s_StaticEnum()\r\n"), *Enum->GetName());
Out.Logf(TEXT("\t{\r\n"));
if (!bIsDynamic)
{
Out.Logf(TEXT("\t\tstatic UEnum* Singleton = nullptr;\r\n"));
}
else
{
Out.Logf(TEXT("\t\tclass UPackage* EnumPackage = FindOrConstructDynamicTypePackage(TEXT(\"%s\"));\r\n"), *PackageSingletonName);
Out.Logf(TEXT("\t\tclass UEnum* Singleton = Cast<UEnum>(StaticFindObjectFast(UEnum::StaticClass(), EnumPackage, TEXT(\"%s\")));\r\n"), *OverriddenEnumNameCpp);
}
Out.Logf(TEXT("\t\tif (!Singleton)\r\n"));
Out.Logf(TEXT("\t\t{\r\n"));
if (!bIsDynamic)
{
Out.Logf(TEXT("\t\t\tSingleton = GetStaticEnum(%s, %s, TEXT(\"%s\"));\r\n"), *SingletonName, *PackageSingletonName, *Enum->GetName());
}
else
{
Out.Logf(TEXT("\t\t\tSingleton = GetStaticEnum(%s, EnumPackage, TEXT(\"%s\"));\r\n"), *SingletonName, *OverriddenEnumNameCpp);
}
Out.Logf(TEXT("\t\t}\r\n"));
Out.Logf(TEXT("\t\treturn Singleton;\r\n"));
Out.Logf(TEXT("\t}\r\n"));
Out.Logf(
TEXT("\tstatic FCompiledInDeferEnum Z_CompiledInDeferEnum_UEnum_%s(%s_StaticEnum, TEXT(\"%s\"), TEXT(\"%s\"), %s, %s, %s);\r\n"),
*EnumNameCpp,
*EnumNameCpp,
bIsDynamic ? *FClass::GetTypePackageName(Enum) : *Enum->GetOutermost()->GetName(),
*OverriddenEnumNameCpp,
bIsDynamic ? TEXT("true") : TEXT("false"),
bIsDynamic ? *AsTEXT(FClass::GetTypePackageName(Enum)) : TEXT("nullptr"),
bIsDynamic ? *AsTEXT(FNativeClassHeaderGenerator::GetOverriddenPathName(Enum)) : TEXT("nullptr")
);
const FString EnumSingletonName = GetSingletonName(Enum);
const FString CRCFuncName = FString::Printf(TEXT("Get_%s_CRC"), *SingletonName);
FUHTStringBuilder GeneratedEnumRegisterFunctionText;
GeneratedEnumRegisterFunctionText.Logf(TEXT("\tUEnum* %s\r\n"), *EnumSingletonName);
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t{\r\n"));
// Enums can either have a UClass or UPackage as outer (if declared in non-UClass header).
FString OuterString;
if (!bIsDynamic)
{
OuterString = PackageSingletonName;
GeneratedEnumRegisterFunctionText.Logf(TEXT("#if WITH_HOT_RELOAD\r\n"));
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\tUPackage* Outer = %s;\r\n"), *OuterString);
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\tstatic UEnum* ReturnEnum = FindExistingEnumIfHotReloadOrDynamic(Outer, TEXT(\"%s\"), 0, %s(), false);\r\n"), *EnumNameCpp, *CRCFuncName);
GeneratedEnumRegisterFunctionText.Logf(TEXT("#else\r\n"));
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\tstatic UEnum* ReturnEnum = nullptr;\r\n"));
GeneratedEnumRegisterFunctionText.Logf(TEXT("#endif // WITH_HOT_RELOAD\r\n"));
}
else
{
OuterString = FString::Printf(TEXT("[](){ return (UObject*)FindOrConstructDynamicTypePackage(TEXT(\"%s\")); }()"), *PackageSingletonName);
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\tUPackage* Outer = FindOrConstructDynamicTypePackage(TEXT(\"%s\"));"), *PackageSingletonName);
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\tUEnum* ReturnEnum = FindExistingEnumIfHotReloadOrDynamic(Outer, TEXT(\"%s\"), 0, %s(), true);\r\n"), *OverriddenEnumNameCpp, *CRCFuncName);
}
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\tif (!ReturnEnum)\r\n"));
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\t{\r\n"));
const TCHAR* UEnumObjectFlags = bIsDynamic ? TEXT("RF_Public|RF_Transient") : TEXT("RF_Public|RF_Transient|RF_MarkAsNative");
FString EnumFormStr;
switch (Enum->GetCppForm())
{
case UEnum::ECppForm::Regular: EnumFormStr = TEXT("UEnum::ECppForm::Regular"); break;
case UEnum::ECppForm::Namespaced: EnumFormStr = TEXT("UEnum::ECppForm::Namespaced"); break;
case UEnum::ECppForm::EnumClass: EnumFormStr = TEXT("UEnum::ECppForm::EnumClass"); break;
}
const FString& EnumDisplayNameFn = Enum->GetMetaData(TEXT("EnumDisplayNameFn"));
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\t\tstatic const UE4CodeGen_Private::FEnumeratorParam Enumerators[] = {\r\n"));
for (int32 Index = 0; Index != Enum->NumEnums(); ++Index)
{
const TCHAR* OverridenNameMetaDatakey = TEXT("OverrideName");
const FString KeyName = Enum->HasMetaData(OverridenNameMetaDatakey, Index) ? Enum->GetMetaData(OverridenNameMetaDatakey, Index) : Enum->GetNameByIndex(Index).ToString();
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\t\t\t{ %s, (int64)%s },\r\n"), *CreateUTF8LiteralString(KeyName), *Enum->GetNameByIndex(Index).ToString());
}
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\t\t};\r\n"));
FOutputDeviceNull OutputDeviceNull;
FString MetaDataParams = OutputMetaDataCodeForObject(OutputDeviceNull, GeneratedEnumRegisterFunctionText, Enum, TEXT("Enum_MetaDataParams"), TEXT(""), TEXT("\t\t\t"));
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\t\tstatic const UE4CodeGen_Private::FEnumParams EnumParams = {\r\n"));
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\t\t\t(UObject*(*)())%s,\r\n"), *OuterString.LeftChop(2));
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\t\t\tUE4CodeGen_Private::EDynamicType::%s,\r\n"), bIsDynamic ? TEXT("Dynamic") : TEXT("NotDynamic"));
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\t\t\t%s,\r\n"), *CreateUTF8LiteralString(OverriddenEnumNameCpp));
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\t\t\t%s,\r\n"), UEnumObjectFlags);
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\t\t\t%s,\r\n"), EnumDisplayNameFn.IsEmpty() ? TEXT("nullptr") : *EnumDisplayNameFn);
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\t\t\t(uint8)%s,\r\n"), *EnumFormStr);
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\t\t\t%s,\r\n"), *CreateUTF8LiteralString(Enum->CppType));
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\t\t\tEnumerators,\r\n"));
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\t\t\tARRAY_COUNT(Enumerators),\r\n"));
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\t\t\t%s\r\n"), *MetaDataParams);
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\t\t};\r\n"));
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\t\tUE4CodeGen_Private::ConstructUEnum(ReturnEnum, EnumParams);\r\n"));
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\t}\r\n"));
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t\treturn ReturnEnum;\r\n"));
GeneratedEnumRegisterFunctionText.Logf(TEXT("\t}\r\n"));
uint32 EnumCrc = GenerateTextCRC(*GeneratedEnumRegisterFunctionText);
GGeneratedCodeCRCs.Add(Enum, EnumCrc);
Out.Logf(TEXT("\tuint32 %s() { return %uU; }\r\n"), *CRCFuncName, EnumCrc);
Out.Log(GeneratedEnumRegisterFunctionText);
}
void FNativeClassHeaderGenerator::ExportMirrorsForNoexportStruct(FOutputDevice& Out, UScriptStruct* Struct, int32 TextIndent)
{
// Export struct.
const TCHAR* StructName = NameLookupCPP.GetNameCPP(Struct);
Out.Logf(TEXT("%sstruct %s"), FCString::Tab(TextIndent), StructName);
if (Struct->GetSuperStruct() != NULL)
{
Out.Logf(TEXT(" : public %s"), NameLookupCPP.GetNameCPP(Struct->GetSuperStruct()));
}
Out.Logf(TEXT("\r\n%s{\r\n"), FCString::Tab(TextIndent));
// Export the struct's CPP properties.
ExportProperties(Out, Struct, TextIndent);
Out.Logf(TEXT("%s};\r\n\r\n"), FCString::Tab(TextIndent));
}
bool FNativeClassHeaderGenerator::WillExportEventParms( UFunction* Function )
{
TFieldIterator<UProperty> It(Function);
return It && (It->PropertyFlags&CPF_Parm);
}
void WriteEventFunctionPrologue(FOutputDevice& Output, int32 Indent, const FParmsAndReturnProperties& Parameters, UObject* FunctionOuter, const TCHAR* FunctionName)
{
// now the body - first we need to declare a struct which will hold the parameters for the event/delegate call
Output.Logf(TEXT("\r\n%s{\r\n"), FCString::Tab(Indent));
// declare and zero-initialize the parameters and return value, if applicable
if (!Parameters.HasParms())
return;
FString EventStructName = GetEventStructParamsName(FunctionOuter, FunctionName);
Output.Logf(TEXT("%s%s Parms;\r\n"), FCString::Tab(Indent + 1), *EventStructName );
// Declare a parameter struct for this event/delegate and assign the struct members using the values passed into the event/delegate call.
for (auto It = Parameters.Parms.CreateConstIterator(); It; ++It)
{
UProperty* Prop = *It;
const FString PropertyName = Prop->GetName();
if (Prop->ArrayDim > 1)
{
Output.Logf(TEXT("%sFMemory::Memcpy(Parms.%s,%s,sizeof(Parms.%s));\r\n"), FCString::Tab(Indent + 1), *PropertyName, *PropertyName, *PropertyName);
}
else
{
FString ValueAssignmentText = PropertyName;
if (Prop->IsA<UBoolProperty>())
{
ValueAssignmentText += TEXT(" ? true : false");
}
Output.Logf(TEXT("%sParms.%s=%s;\r\n"), FCString::Tab(Indent + 1), *PropertyName, *ValueAssignmentText);
}
}
}
void WriteEventFunctionEpilogue(FOutputDevice& Output, int32 Indent, const FParmsAndReturnProperties& Parameters)
{
// Out parm copying.
for (auto It = Parameters.Parms.CreateConstIterator(); It; ++It)
{
UProperty* Prop = *It;
if ((Prop->PropertyFlags & (CPF_OutParm | CPF_ConstParm)) == CPF_OutParm)
{
const FString PropertyName = Prop->GetName();
if ( Prop->ArrayDim > 1 )
{
Output.Logf(TEXT("%sFMemory::Memcpy(&%s,&Parms.%s,sizeof(%s));\r\n"), FCString::Tab(Indent + 1), *PropertyName, *PropertyName, *PropertyName);
}
else
{
Output.Logf(TEXT("%s%s=Parms.%s;\r\n"), FCString::Tab(Indent + 1), *PropertyName, *PropertyName);
}
}
}
// Return value.
if (Parameters.Return)
{
// Make sure uint32 -> bool is supported
bool bBoolProperty = Parameters.Return->IsA(UBoolProperty::StaticClass());
Output.Logf(TEXT("%sreturn %sParms.%s;\r\n"), FCString::Tab(Indent + 1), bBoolProperty ? TEXT("!!") : TEXT(""), *Parameters.Return->GetName());
}
Output.Logf(TEXT("%s}\r\n"), FCString::Tab(Indent));
}
void FNativeClassHeaderGenerator::ExportDelegateDeclaration(FOutputDevice& Out, const FUnrealSourceFile& SourceFile, UFunction* Function)
{
static const TCHAR DelegateStr[] = TEXT("delegate");
check(Function->HasAnyFunctionFlags(FUNC_Delegate));
const bool bIsMulticastDelegate = Function->HasAnyFunctionFlags( FUNC_MulticastDelegate );
// Unmangle the function name
const FString DelegateName = Function->GetName().LeftChop( FString( HEADER_GENERATED_DELEGATE_SIGNATURE_SUFFIX ).Len() );
const FFunctionData* CompilerInfo = FFunctionData::FindForFunction(Function);
FFuncInfo FunctionData = CompilerInfo->GetFunctionData();
// Add class name to beginning of function, to avoid collisions with other classes with the same delegate name in this scope
check(FunctionData.MarshallAndCallName.StartsWith(DelegateStr));
FString ShortName = *FunctionData.MarshallAndCallName + ARRAY_COUNT(DelegateStr) - 1;
FunctionData.MarshallAndCallName = FString::Printf( TEXT( "F%s_DelegateWrapper" ), *ShortName );
// Setup delegate parameter
const FString ExtraParam = FString::Printf(
TEXT( "const %s& %s" ),
bIsMulticastDelegate ? TEXT( "FMulticastScriptDelegate" ) : TEXT( "FScriptDelegate" ),
*DelegateName
);
FUHTStringBuilder DelegateOutput;
DelegateOutput.Log(TEXT("static "));
// export the line that looks like: int32 Main(const FString& Parms)
ExportNativeFunctionHeader(DelegateOutput, ForwardDeclarations, FunctionData, EExportFunctionType::Event, EExportFunctionHeaderStyle::Declaration, *ExtraParam, *GetAPIString());
// Only exporting function prototype
DelegateOutput.Logf(TEXT(";\r\n"));
ExportFunction(Out, SourceFile, Function, false);
}
void FNativeClassHeaderGenerator::ExportDelegateDefinition(FOutputDevice& Out, const FUnrealSourceFile& SourceFile, UFunction* Function)
{
static const TCHAR DelegateStr[] = TEXT("delegate");
check(Function->HasAnyFunctionFlags(FUNC_Delegate));
// Export parameters structs for all delegates. We'll need these to declare our delegate execution function.
FUHTStringBuilder DelegateOutput;
ExportEventParm(DelegateOutput, ForwardDeclarations, Function, /*Indent=*/ 0, /*bOutputConstructor=*/ true, EExportingState::Normal);
const bool bIsMulticastDelegate = Function->HasAnyFunctionFlags( FUNC_MulticastDelegate );
// Unmangle the function name
const FString DelegateName = Function->GetName().LeftChop( FString( HEADER_GENERATED_DELEGATE_SIGNATURE_SUFFIX ).Len() );
const FFunctionData* CompilerInfo = FFunctionData::FindForFunction(Function);
FFuncInfo FunctionData = CompilerInfo->GetFunctionData();
// Always export delegate wrapper functions as inline
FunctionData.FunctionExportFlags |= FUNCEXPORT_Inline;
// Add class name to beginning of function, to avoid collisions with other classes with the same delegate name in this scope
check(FunctionData.MarshallAndCallName.StartsWith(DelegateStr));
FString ShortName = *FunctionData.MarshallAndCallName + ARRAY_COUNT(DelegateStr) - 1;
FunctionData.MarshallAndCallName = FString::Printf( TEXT( "F%s_DelegateWrapper" ), *ShortName );
// Setup delegate parameter
const FString ExtraParam = FString::Printf(
TEXT( "const %s& %s" ),
bIsMulticastDelegate ? TEXT( "FMulticastScriptDelegate" ) : TEXT( "FScriptDelegate" ),
*DelegateName
);
DelegateOutput.Log(TEXT("static "));
// export the line that looks like: int32 Main(const FString& Parms)
ExportNativeFunctionHeader(DelegateOutput, ForwardDeclarations, FunctionData, EExportFunctionType::Event, EExportFunctionHeaderStyle::Declaration, *ExtraParam, *GetAPIString());
FParmsAndReturnProperties Parameters = GetFunctionParmsAndReturn(FunctionData.FunctionReference);
WriteEventFunctionPrologue(DelegateOutput, 0, Parameters, Function->GetOuter(), *DelegateName);
{
const TCHAR* DelegateType = bIsMulticastDelegate ? TEXT( "ProcessMulticastDelegate" ) : TEXT( "ProcessDelegate" );
const TCHAR* DelegateArg = Parameters.HasParms() ? TEXT("&Parms") : TEXT("NULL");
DelegateOutput.Logf(TEXT("\t%s.%s<UObject>(%s);\r\n"), *DelegateName, DelegateType, DelegateArg);
}
WriteEventFunctionEpilogue(DelegateOutput, 0, Parameters);
FString MacroName = SourceFile.GetGeneratedMacroName(FunctionData.MacroLine, TEXT("_DELEGATE"));
WriteMacro(Out, MacroName, DelegateOutput);
}
void FNativeClassHeaderGenerator::ExportEventParm(FUHTStringBuilder& Out, TSet<FString>& PropertyFwd, UFunction* Function, int32 Indent, bool bOutputConstructor, EExportingState ExportingState)
{
if (!WillExportEventParms(Function))
{
return;
}
FString FunctionName = Function->GetName();
if (Function->HasAnyFunctionFlags(FUNC_Delegate))
{
FunctionName = FunctionName.LeftChop(FString(HEADER_GENERATED_DELEGATE_SIGNATURE_SUFFIX).Len());
}
FString EventParmStructName = GetEventStructParamsName(Function->GetOuter(), *FunctionName);
Out.Logf(TEXT("%sstruct %s\r\n"), FCString::Tab(Indent), *EventParmStructName);
Out.Logf(TEXT("%s{\r\n"), FCString::Tab(Indent));
for (UProperty* Prop : TFieldRange<UProperty>(Function))
{
if (!(Prop->PropertyFlags & CPF_Parm))
{
continue;
}
PropertyFwd.Add(Prop->GetCPPTypeForwardDeclaration());
FUHTStringBuilder PropertyText;
PropertyText.Log(FCString::Tab(Indent + 1));
bool bEmitConst = Prop->HasAnyPropertyFlags(CPF_ConstParm) && Prop->IsA<UObjectProperty>();
//@TODO: UCREMOVAL: This is awful code duplication to avoid a double-const
{
// export 'const' for parameters
const bool bIsConstParam = (Prop->IsA(UInterfaceProperty::StaticClass()) && !Prop->HasAllPropertyFlags(CPF_OutParm)); //@TODO: This should be const once that flag exists
const bool bIsOnConstClass = (Prop->IsA(UObjectProperty::StaticClass()) && ((UObjectProperty*)Prop)->PropertyClass != NULL && ((UObjectProperty*)Prop)->PropertyClass->HasAnyClassFlags(CLASS_Const));
if (bIsConstParam || bIsOnConstClass)
{
bEmitConst = false; // ExportCppDeclaration will do it for us
}
}
if (bEmitConst)
{
PropertyText.Logf(TEXT("const "));
}
const FString* Dim = GArrayDimensions.Find(Prop);
Prop->ExportCppDeclaration(PropertyText, EExportedDeclaration::Local, Dim ? **Dim : NULL);
ApplyAlternatePropertyExportText(Prop, PropertyText, ExportingState);
PropertyText.Log(TEXT(";\r\n"));
Out += *PropertyText;
}
// constructor must initialize the return property if it needs it
UProperty* Prop = Function->GetReturnProperty();
if (Prop && bOutputConstructor)
{
FUHTStringBuilder InitializationAr;
UStructProperty* InnerStruct = Cast<UStructProperty>(Prop);
bool bNeedsOutput = true;
if (InnerStruct)
{
bNeedsOutput = InnerStruct->HasNoOpConstructor();
}
else if (
Cast<UNameProperty>(Prop) ||
Cast<UDelegateProperty>(Prop) ||
Cast<UMulticastDelegateProperty>(Prop) ||
Cast<UStrProperty>(Prop) ||
Cast<UTextProperty>(Prop) ||
Cast<UArrayProperty>(Prop) ||
Cast<UMapProperty>(Prop) ||
Cast<USetProperty>(Prop) ||
Cast<UInterfaceProperty>(Prop)
)
{
bNeedsOutput = false;
}
if (bNeedsOutput)
{
check(Prop->ArrayDim == 1); // can't return arrays
Out.Logf(TEXT("\r\n%s/** Constructor, initializes return property only **/\r\n"), FCString::Tab(Indent + 1));
Out.Logf(TEXT("%s%s()\r\n"), FCString::Tab(Indent + 1), *EventParmStructName);
Out.Logf(TEXT("%s%s %s(%s)\r\n"), FCString::Tab(Indent + 2), TEXT(":"), *Prop->GetName(), *GetNullParameterValue(Prop, true));
Out.Logf(TEXT("%s{\r\n"), FCString::Tab(Indent + 1));
Out.Logf(TEXT("%s}\r\n"), FCString::Tab(Indent + 1));
}
}
Out.Logf(TEXT("%s};\r\n"), FCString::Tab(Indent));
}
/**
* Get the intrinsic null value for this property
*
* @param Prop the property to get the null value for
* @param bMacroContext true when exporting the P_GET* macro, false when exporting the friendly C++ function header
*
* @return the intrinsic null value for the property (0 for ints, TEXT("") for strings, etc.)
*/
FString FNativeClassHeaderGenerator::GetNullParameterValue( UProperty* Prop, bool bInitializer/*=false*/ )
{
UClass* PropClass = Prop->GetClass();
UObjectPropertyBase* ObjectProperty = Cast<UObjectPropertyBase>(Prop);
if (PropClass == UByteProperty::StaticClass())
{
UByteProperty* ByteProp = (UByteProperty*)Prop;
// if it's an enum class then we need an explicit cast
if( ByteProp->Enum && ByteProp->Enum->GetCppForm() == UEnum::ECppForm::EnumClass )
{
return FString::Printf(TEXT("(%s)0"), *ByteProp->GetCPPType());
}
return TEXT("0");
}
else if (PropClass == UEnumProperty::StaticClass())
{
UEnumProperty* EnumProp = (UEnumProperty*)Prop;
return FString::Printf(TEXT("(%s)0"), *EnumProp->Enum->GetName());
}
else if ( PropClass == UBoolProperty::StaticClass() )
{
return TEXT("false");
}
else if ( PropClass == UIntProperty::StaticClass()
|| PropClass == UFloatProperty::StaticClass()
|| PropClass == UDoubleProperty::StaticClass())
{
return TEXT("0");
}
else if ( PropClass == UNameProperty::StaticClass() )
{
return TEXT("NAME_None");
}
else if ( PropClass == UStrProperty::StaticClass() )
{
return TEXT("TEXT(\"\")");
}
else if ( PropClass == UTextProperty::StaticClass() )
{
return TEXT("FText::GetEmpty()");
}
else if ( PropClass == UArrayProperty::StaticClass()
|| PropClass == UMapProperty::StaticClass()
|| PropClass == USetProperty::StaticClass()
|| PropClass == UDelegateProperty::StaticClass()
|| PropClass == UMulticastDelegateProperty::StaticClass() )
{
FString Type, ExtendedType;
Type = Prop->GetCPPType(&ExtendedType,CPPF_OptionalValue);
return Type + ExtendedType + TEXT("()");
}
else if ( PropClass == UStructProperty::StaticClass() )
{
bool bHasNoOpConstuctor = CastChecked<UStructProperty>(Prop)->HasNoOpConstructor();
if (bInitializer && bHasNoOpConstuctor)
{
return TEXT("ForceInit");
}
FString Type, ExtendedType;
Type = Prop->GetCPPType(&ExtendedType,CPPF_OptionalValue);
return Type + ExtendedType + (bHasNoOpConstuctor ? TEXT("(ForceInit)") : TEXT("()"));
}
else if (ObjectProperty)
{
return TEXT("NULL");
}
else if ( PropClass == UInterfaceProperty::StaticClass() )
{
return TEXT("NULL");
}
UE_LOG(LogCompile, Fatal,TEXT("GetNullParameterValue - Unhandled property type '%s': %s"), *PropClass->GetName(), *Prop->GetPathName());
return TEXT("");
}
FString FNativeClassHeaderGenerator::GetFunctionReturnString(UFunction* Function)
{
if (UProperty* Return = Function->GetReturnProperty())
{
FString ExtendedReturnType;
ForwardDeclarations.Add(Return->GetCPPTypeForwardDeclaration());
FString ReturnType = Return->GetCPPType(&ExtendedReturnType, CPPF_ArgumentOrReturnValue);
FUHTStringBuilder ReplacementText;
ReplacementText += ReturnType;
ApplyAlternatePropertyExportText(Return, ReplacementText, EExportingState::Normal);
return ReplacementText + ExtendedReturnType;
}
return TEXT("void");
}
/**
* Gets string with function const modifier type.
*
* @param Function Function to get const modifier of.
* @return Empty FString if function is non-const, FString("const") if function is const.
*/
FString GetFunctionConstModifierString(UFunction* Function)
{
if (Function->HasAllFunctionFlags(FUNC_Const))
{
return TEXT("const");
}
return FString();
}
/**
* Converts Position within File to Line and Column.
*
* @param File File contents.
* @param Position Position in string to convert.
* @param OutLine Result line.
* @param OutColumn Result column.
*/
void GetLineAndColumnFromPositionInFile(const FString& File, int32 Position, int32& OutLine, int32& OutColumn)
{
OutLine = 1;
OutColumn = 1;
int32 i;
for (i = 1; i <= Position; ++i)
{
if (File[i] == '\n')
{
++OutLine;
OutColumn = 0;
}
else
{
++OutColumn;
}
}
}
bool FNativeClassHeaderGenerator::IsMissingVirtualSpecifier(const FString& SourceFile, int32 FunctionNamePosition)
{
auto IsEndOfSearchChar = [](TCHAR C) { return (C == TEXT('}')) || (C == TEXT('{')) || (C == TEXT(';')); };
// Find first occurrence of "}", ";", "{" going backwards from ImplementationPosition.
int32 EndOfSearchCharIndex = SourceFile.FindLastCharByPredicate(IsEndOfSearchChar, FunctionNamePosition);
check(EndOfSearchCharIndex != INDEX_NONE);
// Then find if there is "virtual" keyword starting from position of found character to ImplementationPosition
return !HasIdentifierExactMatch(&SourceFile[EndOfSearchCharIndex], &SourceFile[FunctionNamePosition], TEXT("virtual"));
}
FString CreateClickableErrorMessage(const FString& Filename, int32 Line, int32 Column)
{
return FString::Printf(TEXT("%s(%d,%d): error: "), *Filename, Line, Column);
}
void FNativeClassHeaderGenerator::CheckRPCFunctions(const FFuncInfo& FunctionData, const FString& ClassName, int32 ImplementationPosition, int32 ValidatePosition, const FUnrealSourceFile& SourceFile)
{
bool bHasImplementation = ImplementationPosition != INDEX_NONE;
bool bHasValidate = ValidatePosition != INDEX_NONE;
auto Function = FunctionData.FunctionReference;
auto FunctionReturnType = GetFunctionReturnString(Function);
auto ConstModifier = GetFunctionConstModifierString(Function) + TEXT(" ");
auto bIsNative = Function->HasAllFunctionFlags(FUNC_Native);
auto bIsNet = Function->HasAllFunctionFlags(FUNC_Net);
auto bIsNetValidate = Function->HasAllFunctionFlags(FUNC_NetValidate);
auto bIsNetResponse = Function->HasAllFunctionFlags(FUNC_NetResponse);
auto bIsBlueprintEvent = Function->HasAllFunctionFlags(FUNC_BlueprintEvent);
bool bNeedsImplementation = (bIsNet && !bIsNetResponse) || bIsBlueprintEvent || bIsNative;
bool bNeedsValidate = (bIsNative || bIsNet) && !bIsNetResponse && bIsNetValidate;
check(bNeedsImplementation || bNeedsValidate);
auto ParameterString = GetFunctionParameterString(Function);
const auto& Filename = SourceFile.GetFilename();
const auto& FileContent = SourceFile.GetContent();
//
// Get string with function specifiers, listing why we need _Implementation or _Validate functions.
//
TArray<FString> FunctionSpecifiers;
FunctionSpecifiers.Reserve(4);
if (bIsNative) { FunctionSpecifiers.Add(TEXT("Native")); }
if (bIsNet) { FunctionSpecifiers.Add(TEXT("Net")); }
if (bIsBlueprintEvent) { FunctionSpecifiers.Add(TEXT("BlueprintEvent")); }
if (bIsNetValidate) { FunctionSpecifiers.Add(TEXT("NetValidate")); }
check(FunctionSpecifiers.Num() > 0);
//
// Coin static_assert message
//
FUHTStringBuilder AssertMessage;
AssertMessage.Logf(TEXT("Function %s was marked as %s"), *(Function->GetName()), *FunctionSpecifiers[0]);
for (int32 i = 1; i < FunctionSpecifiers.Num(); ++i)
{
AssertMessage.Logf(TEXT(", %s"), *FunctionSpecifiers[i]);
}
AssertMessage.Logf(TEXT("."));
//
// Check if functions are missing.
//
int32 Line;
int32 Column;
GetLineAndColumnFromPositionInFile(FileContent, FunctionData.InputPos, Line, Column);
if (bNeedsImplementation && !bHasImplementation)
{
FString ErrorPosition = CreateClickableErrorMessage(Filename, Line, Column);
FString FunctionDecl = FString::Printf(TEXT("virtual %s %s::%s(%s) %s"), *FunctionReturnType, *ClassName, *FunctionData.CppImplName, *ParameterString, *ConstModifier);
FError::Throwf(TEXT("%s%s Declare function %s"), *ErrorPosition, *AssertMessage, *FunctionDecl);
}
if (bNeedsValidate && !bHasValidate)
{
FString ErrorPosition = CreateClickableErrorMessage(Filename, Line, Column);
FString FunctionDecl = FString::Printf(TEXT("virtual bool %s::%s(%s) %s"), *ClassName, *FunctionData.CppValidationImplName, *ParameterString, *ConstModifier);
FError::Throwf(TEXT("%s%s Declare function %s"), *ErrorPosition, *AssertMessage, *FunctionDecl);
}
//
// If all needed functions are declared, check if they have virtual specifiers.
//
if (bNeedsImplementation && bHasImplementation && IsMissingVirtualSpecifier(FileContent, ImplementationPosition))
{
GetLineAndColumnFromPositionInFile(FileContent, ImplementationPosition, Line, Column);
FString ErrorPosition = CreateClickableErrorMessage(Filename, Line, Column);
FString FunctionDecl = FString::Printf(TEXT("%s %s::%s(%s) %s"), *FunctionReturnType, *ClassName, *FunctionData.CppImplName, *ParameterString, *ConstModifier);
FError::Throwf(TEXT("%sDeclared function %sis not marked as virtual."), *ErrorPosition, *FunctionDecl);
}
if (bNeedsValidate && bHasValidate && IsMissingVirtualSpecifier(FileContent, ValidatePosition))
{
GetLineAndColumnFromPositionInFile(FileContent, ValidatePosition, Line, Column);
FString ErrorPosition = CreateClickableErrorMessage(Filename, Line, Column);
FString FunctionDecl = FString::Printf(TEXT("bool %s::%s(%s) %s"), *ClassName, *FunctionData.CppValidationImplName, *ParameterString, *ConstModifier);
FError::Throwf(TEXT("%sDeclared function %sis not marked as virtual."), *ErrorPosition, *FunctionDecl);
}
}
void FNativeClassHeaderGenerator::ExportNativeFunctionHeader(
FOutputDevice& Out,
TSet<FString>& OutFwdDecls,
const FFuncInfo& FunctionData,
EExportFunctionType::Type FunctionType,
EExportFunctionHeaderStyle::Type FunctionHeaderStyle,
const TCHAR* ExtraParam,
const TCHAR* APIString
)
{
UFunction* Function = FunctionData.FunctionReference;
const bool bIsDelegate = Function->HasAnyFunctionFlags( FUNC_Delegate );
const bool bIsInterface = !bIsDelegate && Function->GetOwnerClass()->HasAnyClassFlags(CLASS_Interface);
const bool bIsK2Override = Function->HasAnyFunctionFlags( FUNC_BlueprintEvent );
if (!bIsDelegate)
{
Out.Log(TEXT("\t"));
}
if (FunctionHeaderStyle == EExportFunctionHeaderStyle::Declaration)
{
// cpp implementation of functions never have these appendages
// If the function was marked as 'RequiredAPI', then add the *_API macro prefix. Note that if the class itself
// was marked 'RequiredAPI', this is not needed as C++ will exports all methods automatically.
if (FunctionType != EExportFunctionType::Event &&
!Function->GetOwnerClass()->HasAnyClassFlags(CLASS_RequiredAPI) &&
(FunctionData.FunctionExportFlags & FUNCEXPORT_RequiredAPI))
{
Out.Log(APIString);
}
if(FunctionType == EExportFunctionType::Interface)
{
Out.Log(TEXT("static "));
}
else if (bIsK2Override)
{
Out.Log(TEXT("virtual "));
}
// if the owning class is an interface class
else if ( bIsInterface )
{
Out.Log(TEXT("virtual "));
}
// this is not an event, the function is not a static function and the function is not marked final
else if ( FunctionType != EExportFunctionType::Event && !Function->HasAnyFunctionFlags(FUNC_Static) && !(FunctionData.FunctionExportFlags & FUNCEXPORT_Final) )
{
Out.Log(TEXT("virtual "));
}
else if( FunctionData.FunctionExportFlags & FUNCEXPORT_Inline )
{
Out.Log(TEXT("inline "));
}
}
UProperty* ReturnProperty = Function->GetReturnProperty();
if (ReturnProperty != nullptr)
{
FString ExtendedReturnType;
FString ReturnType = ReturnProperty->GetCPPType(&ExtendedReturnType, (FunctionHeaderStyle == EExportFunctionHeaderStyle::Definition && (FunctionType != EExportFunctionType::Interface) ? CPPF_Implementation : 0) | CPPF_ArgumentOrReturnValue);
OutFwdDecls.Add(ReturnProperty->GetCPPTypeForwardDeclaration());
FUHTStringBuilder ReplacementText;
ReplacementText += ReturnType;
ApplyAlternatePropertyExportText(ReturnProperty, ReplacementText, EExportingState::Normal);
Out.Logf(TEXT("%s%s"), *ReplacementText, *ExtendedReturnType);
}
else
{
Out.Log( TEXT("void") );
}
FString FunctionName;
if (FunctionHeaderStyle == EExportFunctionHeaderStyle::Definition)
{
FunctionName = FString(NameLookupCPP.GetNameCPP(CastChecked<UClass>(Function->GetOuter()), bIsInterface || FunctionType == EExportFunctionType::Interface)) + TEXT("::");
}
if (FunctionType == EExportFunctionType::Interface)
{
FunctionName += FString::Printf(TEXT("Execute_%s"), *Function->GetName());
}
else if (FunctionType == EExportFunctionType::Event)
{
FunctionName += FunctionData.MarshallAndCallName;
}
else
{
FunctionName += FunctionData.CppImplName;
}
Out.Logf(TEXT(" %s("), *FunctionName);
int32 ParmCount=0;
// Emit extra parameter if we have one
if( ExtraParam )
{
Out.Logf(TEXT("%s"), ExtraParam);
++ParmCount;
}
for (UProperty* Property : TFieldRange<UProperty>(Function))
{
if ((Property->PropertyFlags & (CPF_Parm | CPF_ReturnParm)) != CPF_Parm)
{
continue;
}
OutFwdDecls.Add(Property->GetCPPTypeForwardDeclaration());
if( ParmCount++ )
{
Out.Log(TEXT(", "));
}
FUHTStringBuilder PropertyText;
const FString* Dim = GArrayDimensions.Find(Property);
Property->ExportCppDeclaration( PropertyText, EExportedDeclaration::Parameter, Dim ? **Dim : NULL );
ApplyAlternatePropertyExportText(Property, PropertyText, EExportingState::Normal);
Out.Logf(TEXT("%s"), *PropertyText);
}
Out.Log( TEXT(")") );
if (FunctionType != EExportFunctionType::Interface)
{
if (!bIsDelegate && Function->HasAllFunctionFlags(FUNC_Const))
{
Out.Log( TEXT(" const") );
}
if (bIsInterface && FunctionHeaderStyle == EExportFunctionHeaderStyle::Declaration)
{
// all methods in interface classes are pure virtuals
if (bIsK2Override)
{
// For BlueprintNativeEvent methods we emit a stub implementation. This allows Blueprints that implement the interface class to be nativized.
FString ReturnValue;
if (ReturnProperty != nullptr)
{
UByteProperty* ByteProperty = Cast<UByteProperty>(ReturnProperty);
if (ByteProperty != nullptr && ByteProperty->Enum != nullptr && ByteProperty->Enum->GetCppForm() != UEnum::ECppForm::EnumClass)
{
ReturnValue = FString::Printf(TEXT(" return TEnumAsByte<%s>(%s); "), *ByteProperty->Enum->CppType, *GetNullParameterValue(ReturnProperty, false));
}
else
{
ReturnValue = FString::Printf(TEXT(" return %s; "), *GetNullParameterValue(ReturnProperty, false));
}
}
Out.Logf(TEXT(" {%s}"), *ReturnValue);
}
else
{
Out.Log(TEXT("=0"));
}
}
}
}
/**
* Export the actual internals to a standard thunk function
*
* @param RPCWrappers output device for writing
* @param FunctionData function data for the current function
* @param Parameters list of parameters in the function
* @param Return return parameter for the function
* @param DeprecationWarningOutputDevice Device to output deprecation warnings for _Validate and _Implementation functions.
*/
void FNativeClassHeaderGenerator::ExportFunctionThunk(FUHTStringBuilder& RPCWrappers, UFunction* Function, const FFuncInfo& FunctionData, const TArray<UProperty*>& Parameters, UProperty* Return)
{
// export the GET macro for this parameter
FString ParameterList;
for (int32 ParameterIndex = 0; ParameterIndex < Parameters.Num(); ParameterIndex++)
{
UProperty* Param = Parameters[ParameterIndex];
ForwardDeclarations.Add(Param->GetCPPTypeForwardDeclaration());
FString EvalBaseText = TEXT("P_GET_"); // e.g. P_GET_STR
FString EvalModifierText; // e.g. _REF
FString EvalParameterText; // e.g. (UObject*,NULL)
FString TypeText;
if (Param->ArrayDim > 1)
{
EvalBaseText += TEXT("ARRAY");
TypeText = Param->GetCPPType();
}
else
{
EvalBaseText += Param->GetCPPMacroType(TypeText);
UArrayProperty* ArrayProperty = Cast<UArrayProperty>(Param);
if (ArrayProperty)
{
UInterfaceProperty* InterfaceProperty = Cast<UInterfaceProperty>(ArrayProperty->Inner);
if (InterfaceProperty)
{
FString InterfaceTypeText;
InterfaceProperty->GetCPPMacroType(InterfaceTypeText);
TypeText += FString::Printf(TEXT("<%s>"), *InterfaceTypeText);
}
}
}
bool bPassAsNoPtr = Param->HasAllPropertyFlags(CPF_UObjectWrapper | CPF_OutParm) && Param->IsA(UClassProperty::StaticClass());
if (bPassAsNoPtr)
{
TypeText = Param->GetCPPType();
}
FUHTStringBuilder ReplacementText;
ReplacementText += TypeText;
ApplyAlternatePropertyExportText(Param, ReplacementText, EExportingState::Normal);
TypeText = ReplacementText;
FString DefaultValueText;
FString ParamPrefix = TEXT("Z_Param_");
// if this property is an out parm, add the REF tag
if (Param->PropertyFlags & CPF_OutParm)
{
if (!bPassAsNoPtr)
{
EvalModifierText += TEXT("_REF");
}
else
{
// Parameters passed as TSubclassOf<Class>& shouldn't have asterisk added.
EvalModifierText += TEXT("_REF_NO_PTR");
}
ParamPrefix += TEXT("Out_");
}
// if this property requires a specialization, add a comma to the type name so we can print it out easily
if (TypeText != TEXT(""))
{
TypeText += TCHAR(',');
}
FString ParamName = ParamPrefix + Param->GetName();
EvalParameterText = FString::Printf(TEXT("(%s%s%s)"), *TypeText, *ParamName, *DefaultValueText);
RPCWrappers.Logf(TEXT("\t\t%s%s%s;") LINE_TERMINATOR, *EvalBaseText, *EvalModifierText, *EvalParameterText);
// add this property to the parameter list string
if (ParameterList.Len())
{
ParameterList += TCHAR(',');
}
{
UDelegateProperty* DelegateProp = Cast< UDelegateProperty >(Param);
if (DelegateProp != NULL)
{
// For delegates, add an explicit conversion to the specific type of delegate before passing it along
const FString FunctionName = DelegateProp->SignatureFunction->GetName().LeftChop(FString(HEADER_GENERATED_DELEGATE_SIGNATURE_SUFFIX).Len());
const FString CPPDelegateName = FString(TEXT("F")) + FunctionName;
ParamName = FString::Printf(TEXT("%s(%s)"), *CPPDelegateName, *ParamName);
}
}
{
UMulticastDelegateProperty* MulticastDelegateProp = Cast< UMulticastDelegateProperty >(Param);
if (MulticastDelegateProp != NULL)
{
// For delegates, add an explicit conversion to the specific type of delegate before passing it along
const FString FunctionName = MulticastDelegateProp->SignatureFunction->GetName().LeftChop(FString(HEADER_GENERATED_DELEGATE_SIGNATURE_SUFFIX).Len());
const FString CPPDelegateName = FString(TEXT("F")) + FunctionName;
ParamName = FString::Printf(TEXT("%s(%s)"), *CPPDelegateName, *ParamName);
}
}
UEnum* Enum = nullptr;
UByteProperty* ByteProp = Cast<UByteProperty>(Param);
if (ByteProp && ByteProp->Enum)
{
Enum = ByteProp->Enum;
}
else if (Param->IsA<UEnumProperty>())
{
Enum = ((UEnumProperty*)Param)->Enum;
}
if (Enum)
{
// For enums, add an explicit conversion
if (!(Param->PropertyFlags & CPF_OutParm))
{
ParamName = FString::Printf(TEXT("%s(%s)"), *Enum->CppType, *ParamName);
}
else
{
if (Enum->GetCppForm() == UEnum::ECppForm::EnumClass)
{
// If we're an enum class don't require the wrapper
ParamName = FString::Printf(TEXT("(%s&)(%s)"), *Enum->CppType, *ParamName);
}
else
{
ParamName = FString::Printf(TEXT("(TEnumAsByte<%s>&)(%s)"), *Enum->CppType, *ParamName);
}
}
}
ParameterList += ParamName;
}
RPCWrappers += TEXT("\t\tP_FINISH;") LINE_TERMINATOR;
RPCWrappers += TEXT("\t\tP_NATIVE_BEGIN;") LINE_TERMINATOR;
ClassDefinitionRange ClassRange;
if (ClassDefinitionRanges.Contains(Function->GetOwnerClass()))
{
ClassRange = ClassDefinitionRanges[Function->GetOwnerClass()];
ClassRange.Validate();
}
const TCHAR* ClassStart = ClassRange.Start;
const TCHAR* ClassEnd = ClassRange.End;
FString ClassName = Function->GetOwnerClass()->GetName();
FString ClassDefinition(ClassEnd - ClassStart, ClassStart);
bool bHasImplementation = HasIdentifierExactMatch(ClassDefinition, FunctionData.CppImplName);
bool bHasValidate = HasIdentifierExactMatch(ClassDefinition, FunctionData.CppValidationImplName);
bool bShouldEnableImplementationDeprecation =
// Enable deprecation warnings only if GENERATED_BODY is used inside class or interface (not GENERATED_UCLASS_BODY etc.)
ClassRange.bHasGeneratedBody
// and implementation function is called, but not the one declared by user
&& (FunctionData.CppImplName != Function->GetName() && !bHasImplementation);
bool bShouldEnableValidateDeprecation =
// Enable deprecation warnings only if GENERATED_BODY is used inside class or interface (not GENERATED_UCLASS_BODY etc.)
ClassRange.bHasGeneratedBody
// and validation function is called
&& (FunctionData.FunctionFlags & FUNC_NetValidate) && !bHasValidate;
//Emit warning here if necessary
FUHTStringBuilder FunctionDeclaration;
ExportNativeFunctionHeader(FunctionDeclaration, ForwardDeclarations, FunctionData, EExportFunctionType::Function, EExportFunctionHeaderStyle::Declaration, nullptr, *GetAPIString());
// Call the validate function if there is one
if (!(FunctionData.FunctionExportFlags & FUNCEXPORT_CppStatic) && (FunctionData.FunctionFlags & FUNC_NetValidate))
{
RPCWrappers.Logf(TEXT("\t\tif (!P_THIS->%s(%s))") LINE_TERMINATOR, *FunctionData.CppValidationImplName, *ParameterList);
RPCWrappers.Logf(TEXT("\t\t{") LINE_TERMINATOR);
RPCWrappers.Logf(TEXT("\t\t\tRPC_ValidateFailed(TEXT(\"%s\"));") LINE_TERMINATOR, *FunctionData.CppValidationImplName);
RPCWrappers.Logf(TEXT("\t\t\treturn;") LINE_TERMINATOR); // If we got here, the validation function check failed
RPCWrappers.Logf(TEXT("\t\t}") LINE_TERMINATOR);
}
// write out the return value
RPCWrappers.Log(TEXT("\t\t"));
if (Return)
{
ForwardDeclarations.Add(Return->GetCPPTypeForwardDeclaration());
FUHTStringBuilder ReplacementText;
FString ReturnExtendedType;
ReplacementText += Return->GetCPPType(&ReturnExtendedType);
ApplyAlternatePropertyExportText(Return, ReplacementText, EExportingState::Normal);
FString ReturnType = ReplacementText;
RPCWrappers.Logf(TEXT("*(%s%s*)") TEXT(PREPROCESSOR_TO_STRING(RESULT_PARAM)) TEXT("="), *ReturnType, *ReturnExtendedType);
}
// export the call to the C++ version
if (FunctionData.FunctionExportFlags & FUNCEXPORT_CppStatic)
{
RPCWrappers.Logf(TEXT("%s::%s(%s);") LINE_TERMINATOR, NameLookupCPP.GetNameCPP(Function->GetOwnerClass()), *FunctionData.CppImplName, *ParameterList);
}
else
{
RPCWrappers.Logf(TEXT("P_THIS->%s(%s);") LINE_TERMINATOR, *FunctionData.CppImplName, *ParameterList);
}
RPCWrappers += TEXT("\t\tP_NATIVE_END;") LINE_TERMINATOR;
}
FString FNativeClassHeaderGenerator::GetFunctionParameterString(UFunction* Function)
{
FString ParameterList;
FUHTStringBuilder PropertyText;
for (UProperty* Property : TFieldRange<UProperty>(Function))
{
ForwardDeclarations.Add(Property->GetCPPTypeForwardDeclaration());
if ((Property->PropertyFlags & (CPF_Parm | CPF_ReturnParm)) != CPF_Parm)
{
break;
}
if (ParameterList.Len())
{
ParameterList += TEXT(", ");
}
auto Dim = GArrayDimensions.Find(Property);
Property->ExportCppDeclaration(PropertyText, EExportedDeclaration::Parameter, Dim ? **Dim : NULL, 0, true);
ApplyAlternatePropertyExportText(Property, PropertyText, EExportingState::Normal);
ParameterList += PropertyText;
PropertyText.Reset();
}
return ParameterList;
}
struct FNativeFunctionStringBuilder
{
FUHTStringBuilder RPCWrappers;
FUHTStringBuilder AutogeneratedBlueprintFunctionDeclarations;
FUHTStringBuilder AutogeneratedBlueprintFunctionDeclarationsOnlyNotDeclared;
};
void FNativeClassHeaderGenerator::ExportNativeFunctions(FOutputDevice& OutGeneratedHeaderText, FOutputDevice& OutMacroCalls, FOutputDevice& OutNoPureDeclsMacroCalls, const FUnrealSourceFile& SourceFile, UClass* Class, FClassMetaData* ClassData)
{
FNativeFunctionStringBuilder RuntimeStringBuilders;
FNativeFunctionStringBuilder EditorStringBuilders;
FString ClassName = Class->GetName();
ClassDefinitionRange ClassRange;
if (ClassDefinitionRanges.Contains(Class))
{
ClassRange = ClassDefinitionRanges[Class];
ClassRange.Validate();
}
// export the C++ stubs
for (UFunction* Function : TFieldRange<UFunction>(Class, EFieldIteratorFlags::ExcludeSuper))
{
if (!(Function->FunctionFlags & FUNC_Native))
{
continue;
}
const bool bEditorOnlyFunc = Function->HasAnyFunctionFlags(FUNC_EditorOnly);
FNativeFunctionStringBuilder& FuncStringBuilders = bEditorOnlyFunc ? EditorStringBuilders : RuntimeStringBuilders;
FFunctionData* CompilerInfo = FFunctionData::FindForFunction(Function);
const FFuncInfo& FunctionData = CompilerInfo->GetFunctionData();
// Custom thunks don't get any C++ stub function generated
if (FunctionData.FunctionExportFlags & FUNCEXPORT_CustomThunk)
{
continue;
}
// Should we emit these to RPC wrappers or just ignore them?
const bool bWillBeProgrammerTyped = FunctionData.CppImplName == Function->GetName();
if (!bWillBeProgrammerTyped)
{
const TCHAR* ClassStart = ClassRange.Start;
const TCHAR* ClassEnd = ClassRange.End;
FString ClassDefinition(ClassEnd - ClassStart, ClassStart);
FString FunctionName = Function->GetName();
int32 ClassDefinitionStartPosition = ClassStart - *SourceFile.GetContent();
int32 ImplementationPosition = FindIdentifierExactMatch(ClassDefinition, FunctionData.CppImplName);
bool bHasImplementation = ImplementationPosition != INDEX_NONE;
if (bHasImplementation)
{
ImplementationPosition += ClassDefinitionStartPosition;
}
int32 ValidatePosition = FindIdentifierExactMatch(ClassDefinition, FunctionData.CppValidationImplName);
bool bHasValidate = ValidatePosition != INDEX_NONE;
if (bHasValidate)
{
ValidatePosition += ClassDefinitionStartPosition;
}
//Emit warning here if necessary
FUHTStringBuilder FunctionDeclaration;
ExportNativeFunctionHeader(FunctionDeclaration, ForwardDeclarations, FunctionData, EExportFunctionType::Function, EExportFunctionHeaderStyle::Declaration, nullptr, *GetAPIString());
FunctionDeclaration.Log(TEXT(";\r\n"));
// Declare validation function if needed
if (FunctionData.FunctionFlags & FUNC_NetValidate)
{
FString ParameterList = GetFunctionParameterString(Function);
const TCHAR* Virtual = (!FunctionData.FunctionReference->HasAnyFunctionFlags(FUNC_Static) && !(FunctionData.FunctionExportFlags & FUNCEXPORT_Final)) ? TEXT("virtual") : TEXT("");
FStringOutputDevice ValidDecl;
ValidDecl.Logf(TEXT("\t%s bool %s(%s);\r\n"), Virtual, *FunctionData.CppValidationImplName, *ParameterList);
FuncStringBuilders.AutogeneratedBlueprintFunctionDeclarations.Log(*ValidDecl);
if (!bHasValidate)
{
FuncStringBuilders.AutogeneratedBlueprintFunctionDeclarationsOnlyNotDeclared.Logf(TEXT("%s"), *ValidDecl);
}
}
FuncStringBuilders.AutogeneratedBlueprintFunctionDeclarations.Log(*FunctionDeclaration);
if (!bHasImplementation && FunctionData.CppImplName != FunctionName)
{
FuncStringBuilders.AutogeneratedBlueprintFunctionDeclarationsOnlyNotDeclared.Log(*FunctionDeclaration);
}
// Versions that skip function autodeclaration throw an error when a function is missing.
if (ClassRange.bHasGeneratedBody && (SourceFile.GetGeneratedCodeVersionForStruct(Class) > EGeneratedCodeVersion::V1))
{
FString Name = Class->HasAnyClassFlags(CLASS_Interface) ? TEXT("I") + ClassName : FString(NameLookupCPP.GetNameCPP(Class));
CheckRPCFunctions(FunctionData, *Name, ImplementationPosition, ValidatePosition, SourceFile);
}
}
FuncStringBuilders.RPCWrappers.Log(TEXT("\r\n"));
// if this function was originally declared in a base class, and it isn't a static function,
// only the C++ function header will be exported
if (!ShouldExportUFunction(Function))
{
continue;
}
// export the script wrappers
FuncStringBuilders.RPCWrappers.Logf(TEXT("\tDECLARE_FUNCTION(%s)"), *FunctionData.UnMarshallAndCallName);
FuncStringBuilders.RPCWrappers += LINE_TERMINATOR TEXT("\t{") LINE_TERMINATOR;
FParmsAndReturnProperties Parameters = GetFunctionParmsAndReturn(FunctionData.FunctionReference);
ExportFunctionThunk(FuncStringBuilders.RPCWrappers, Function, FunctionData, Parameters.Parms, Parameters.Return);
FuncStringBuilders.RPCWrappers += TEXT("\t}") LINE_TERMINATOR;
}
// Write runtime wrappers
{
FString MacroName = SourceFile.GetGeneratedMacroName(ClassData, TEXT("_RPC_WRAPPERS"));
WriteMacro(OutGeneratedHeaderText, MacroName, RuntimeStringBuilders.AutogeneratedBlueprintFunctionDeclarations + RuntimeStringBuilders.RPCWrappers);
OutMacroCalls.Logf(TEXT("\t%s\r\n"), *MacroName);
// Put static checks before RPCWrappers to get proper messages from static asserts before compiler errors.
FString NoPureDeclsMacroName = SourceFile.GetGeneratedMacroName(ClassData, TEXT("_RPC_WRAPPERS_NO_PURE_DECLS"));
if (SourceFile.GetGeneratedCodeVersionForStruct(Class) > EGeneratedCodeVersion::V1)
{
WriteMacro(OutGeneratedHeaderText, NoPureDeclsMacroName, RuntimeStringBuilders.RPCWrappers);
}
else
{
WriteMacro(OutGeneratedHeaderText, NoPureDeclsMacroName, RuntimeStringBuilders.AutogeneratedBlueprintFunctionDeclarationsOnlyNotDeclared + RuntimeStringBuilders.RPCWrappers);
}
OutNoPureDeclsMacroCalls.Logf(TEXT("\t%s\r\n"), *NoPureDeclsMacroName);
}
// Write editor only RPC wrappers if they exist
if (EditorStringBuilders.RPCWrappers.Len() > 0)
{
OutGeneratedHeaderText.Log( BeginEditorOnlyGuard );
FString MacroName = SourceFile.GetGeneratedMacroName(ClassData, TEXT("_EDITOR_ONLY_RPC_WRAPPERS"));
WriteMacro(OutGeneratedHeaderText, MacroName, EditorStringBuilders.AutogeneratedBlueprintFunctionDeclarations + EditorStringBuilders.RPCWrappers);
OutMacroCalls.Logf(TEXT("\t%s\r\n"), *MacroName);
// Put static checks before RPCWrappers to get proper messages from static asserts before compiler errors.
FString NoPureDeclsMacroName = SourceFile.GetGeneratedMacroName(ClassData, TEXT("_EDITOR_ONLY_RPC_WRAPPERS_NO_PURE_DECLS"));
if (SourceFile.GetGeneratedCodeVersionForStruct(Class) > EGeneratedCodeVersion::V1)
{
WriteMacro(OutGeneratedHeaderText, NoPureDeclsMacroName, EditorStringBuilders.RPCWrappers);
}
else
{
WriteMacro(OutGeneratedHeaderText, NoPureDeclsMacroName, EditorStringBuilders.AutogeneratedBlueprintFunctionDeclarationsOnlyNotDeclared + EditorStringBuilders.RPCWrappers);
}
// write out an else preprocessor block for when not compiling for the editor. The generated macros should be empty then since the functions are compiled out
{
OutGeneratedHeaderText.Log(TEXT("#else\r\n"));
WriteMacro(OutGeneratedHeaderText, MacroName, TEXT(""));
WriteMacro(OutGeneratedHeaderText, NoPureDeclsMacroName, TEXT(""));
OutGeneratedHeaderText.Log(EndEditorOnlyGuard);
}
OutNoPureDeclsMacroCalls.Logf(TEXT("\t%s\r\n"), *NoPureDeclsMacroName);
}
}
/**
* Exports the methods which trigger UnrealScript events and delegates.
*
* @param CallbackFunctions the functions to export
*/
void FNativeClassHeaderGenerator::ExportCallbackFunctions(
FOutputDevice& OutGeneratedHeaderText,
FOutputDevice& OutCpp,
TSet<FString>& OutFwdDecls,
const TArray<UFunction*>& CallbackFunctions,
const TCHAR* CallbackWrappersMacroName,
EExportCallbackType ExportCallbackType,
const TCHAR* APIString
)
{
FUHTStringBuilder RPCWrappers;
for (UFunction* Function : CallbackFunctions)
{
// Never expecting to export delegate functions this way
check(!Function->HasAnyFunctionFlags(FUNC_Delegate));
FFunctionData* CompilerInfo = FFunctionData::FindForFunction(Function);
const FFuncInfo& FunctionData = CompilerInfo->GetFunctionData();
FString FunctionName = Function->GetName();
UClass* Class = CastChecked<UClass>(Function->GetOuter());
const TCHAR* ClassName = NameLookupCPP.GetNameCPP(Class);
if (FunctionData.FunctionFlags & FUNC_NetResponse)
{
// Net response functions don't go into the VM
continue;
}
const bool bWillBeProgrammerTyped = FunctionName == FunctionData.MarshallAndCallName;
// Emit the declaration if the programmer isn't responsible for declaring this wrapper
if (!bWillBeProgrammerTyped)
{
// export the line that looks like: int32 Main(const FString& Parms)
ExportNativeFunctionHeader(RPCWrappers, OutFwdDecls, FunctionData, EExportFunctionType::Event, EExportFunctionHeaderStyle::Declaration, nullptr, APIString);
RPCWrappers.Log(TEXT(";\r\n"));
RPCWrappers.Log(TEXT("\r\n"));
}
FString FunctionNameName;
if (ExportCallbackType != EExportCallbackType::Interface)
{
FunctionNameName = FString::Printf(TEXT("NAME_%s_%s"), ClassName, *FunctionName);
OutCpp.Logf(TEXT("\tstatic FName %s = FName(TEXT(\"%s\"));") LINE_TERMINATOR, *FunctionNameName, *GetOverriddenFName(Function).ToString());
}
// Emit the thunk implementation
ExportNativeFunctionHeader(OutCpp, OutFwdDecls, FunctionData, EExportFunctionType::Event, EExportFunctionHeaderStyle::Definition, nullptr, APIString);
FParmsAndReturnProperties Parameters = GetFunctionParmsAndReturn(FunctionData.FunctionReference);
if (ExportCallbackType != EExportCallbackType::Interface)
{
WriteEventFunctionPrologue(OutCpp, /*Indent=*/ 1, Parameters, Class, *FunctionName);
{
// Cast away const just in case, because ProcessEvent isn't const
OutCpp.Logf(
TEXT("\t\t%sProcessEvent(FindFunctionChecked(%s),%s);\r\n"),
(Function->HasAllFunctionFlags(FUNC_Const)) ? *FString::Printf(TEXT("const_cast<%s*>(this)->"), ClassName) : TEXT(""),
*FunctionNameName,
Parameters.HasParms() ? TEXT("&Parms") : TEXT("NULL")
);
}
WriteEventFunctionEpilogue(OutCpp, /*Indent=*/ 1, Parameters);
}
else
{
OutCpp.Log(LINE_TERMINATOR);
OutCpp.Log(TEXT("\t{") LINE_TERMINATOR);
// assert if this is ever called directly
OutCpp.Logf(TEXT("\t\tcheck(0 && \"Do not directly call Event functions in Interfaces. Call Execute_%s instead.\");") LINE_TERMINATOR, *FunctionName);
// satisfy compiler if it's expecting a return value
if (Parameters.Return)
{
FString EventParmStructName = GetEventStructParamsName(Class, *FunctionName);
OutCpp.Logf(TEXT("\t\t%s Parms;") LINE_TERMINATOR, *EventParmStructName);
OutCpp.Log(TEXT("\t\treturn Parms.ReturnValue;") LINE_TERMINATOR);
}
OutCpp.Log(TEXT("\t}") LINE_TERMINATOR);
}
}
WriteMacro(OutGeneratedHeaderText, CallbackWrappersMacroName, RPCWrappers);
}
/**
* Determines if the property has alternate export text associated with it and if so replaces the text in PropertyText with the
* alternate version. (for example, structs or properties that specify a native type using export-text). Should be called immediately
* after ExportCppDeclaration()
*
* @param Prop the property that is being exported
* @param PropertyText the string containing the text exported from ExportCppDeclaration
*/
void FNativeClassHeaderGenerator::ApplyAlternatePropertyExportText(UProperty* Prop, FUHTStringBuilder& PropertyText, EExportingState ExportingState)
{
UArrayProperty* ArrayProperty = Cast<UArrayProperty>(Prop);
UProperty* InnerProperty = ArrayProperty ? ArrayProperty->Inner : nullptr;
if (InnerProperty && (
(InnerProperty->IsA<UByteProperty>() && ((UByteProperty*)InnerProperty)->Enum && FClass::IsDynamic(((UByteProperty*)InnerProperty)->Enum)) ||
(InnerProperty->IsA<UEnumProperty>() && FClass::IsDynamic(((UEnumProperty*)InnerProperty)->Enum))
)
)
{
const FString Original = InnerProperty->GetCPPType();
const FString RawByte = InnerProperty->GetCPPType(nullptr, EPropertyExportCPPFlags::CPPF_BlueprintCppBackend);
if (Original != RawByte)
{
PropertyText.ReplaceInline(*Original, *RawByte, ESearchCase::CaseSensitive);
}
return;
}
if (ExportingState == EExportingState::TypeEraseDelegates)
{
UDelegateProperty* DelegateProperty = Cast<UDelegateProperty>(Prop);
UMulticastDelegateProperty* MulticastDelegateProperty = Cast<UMulticastDelegateProperty>(Prop);
if (DelegateProperty || MulticastDelegateProperty)
{
FString Original = Prop->GetCPPType();
FString PlaceholderOfSameSizeAndAlignemnt;
if (DelegateProperty)
{
PlaceholderOfSameSizeAndAlignemnt = TEXT("FScriptDelegate");
}
else
{
PlaceholderOfSameSizeAndAlignemnt = TEXT("FMulticastScriptDelegate");
}
PropertyText.ReplaceInline(*Original, *PlaceholderOfSameSizeAndAlignemnt, ESearchCase::CaseSensitive);
}
}
}
void GetSourceFilesInDependencyOrderRecursive(TArray<FUnrealSourceFile*>& OutTest, const UPackage* Package, FUnrealSourceFile* SourceFile, TSet<const FUnrealSourceFile*>& VisitedSet, bool bCheckDependenciesOnly, const TSet<FUnrealSourceFile*>& Ignore)
{
// Check if the Class has already been exported, after we've checked for circular header dependencies.
if (OutTest.Contains(SourceFile) || Ignore.Contains(SourceFile))
{
return;
}
// Check for circular dependencies.
if (VisitedSet.Contains(SourceFile))
{
UE_LOG(LogCompile, Error, TEXT("Circular dependency detected for filename %s!"), *SourceFile->GetFilename());
return;
}
// Check for circular header dependencies between export classes.
bCheckDependenciesOnly = bCheckDependenciesOnly || SourceFile->GetPackage() != Package;
VisitedSet.Add(SourceFile);
for (FHeaderProvider& Include : SourceFile->GetIncludes())
{
if (FUnrealSourceFile* IncludeFile = Include.Resolve())
{
GetSourceFilesInDependencyOrderRecursive(OutTest, Package, IncludeFile, VisitedSet, bCheckDependenciesOnly, Ignore);
}
}
VisitedSet.Remove(SourceFile);
if (!bCheckDependenciesOnly)
{
OutTest.Add(SourceFile);
}
}
TArray<FUnrealSourceFile*> GetSourceFilesInDependencyOrder(const UPackage* Package, const TArray<FUnrealSourceFile*>& SourceFiles, const TSet<FUnrealSourceFile*>& Ignore)
{
TArray<FUnrealSourceFile*> Result;
TSet<const FUnrealSourceFile*> VisitedSet;
for (FUnrealSourceFile* SourceFile : SourceFiles)
{
if (SourceFile->GetPackage() == Package)
{
GetSourceFilesInDependencyOrderRecursive(Result, Package, SourceFile, VisitedSet, false, Ignore);
}
}
return Result;
}
TMap<UClass*, FUnrealSourceFile*> GClassToSourceFileMap;
// Constructor.
FNativeClassHeaderGenerator::FNativeClassHeaderGenerator(
const UPackage* InPackage,
const TArray<FUnrealSourceFile*>& SourceFiles,
FClasses& AllClasses,
bool InAllowSaveExportedHeaders
)
: API (FPackageName::GetShortName(InPackage).ToUpper())
, Package (InPackage)
, UniqueCrossModuleReferences(nullptr)
, bAllowSaveExportedHeaders (InAllowSaveExportedHeaders)
, bFailIfGeneratedCodeChanges(FParse::Param(FCommandLine::Get(), TEXT("FailIfGeneratedCodeChanges")))
{
const FString PackageName = FPackageName::GetShortName(Package);
FString PkgDir;
FString GeneratedIncludeDirectory;
if (!FindPackageLocation(*PackageName, PkgDir, GeneratedIncludeDirectory))
{
UE_LOG(LogCompile, Error, TEXT("Failed to find path for package %s"), *PackageName);
}
bool bWriteClassesH = false;
const bool bPackageHasAnyExportClasses = AllClasses.GetClassesInPackage(Package).ContainsByPredicate([](FClass* Class)
{
return Class->HasAnyClassFlags(CLASS_Native) && !Class->HasAnyClassFlags(CLASS_NoExport | CLASS_Intrinsic);
});
if (bPackageHasAnyExportClasses)
{
for (FUnrealSourceFile* SourceFile : SourceFiles)
{
TArray<UClass*> DefinedClasses = SourceFile->GetDefinedClasses();
for (UClass* Class : DefinedClasses)
{
if (!Class->HasAnyClassFlags(CLASS_Native))
{
Class->UnMark(EObjectMark(OBJECTMARK_TagImp | OBJECTMARK_TagExp));
}
else if (GTypeDefinitionInfoMap.Contains(Class) && !Class->HasAnyClassFlags(CLASS_NoExport))
{
bWriteClassesH = true;
Class->UnMark(OBJECTMARK_TagImp);
Class->Mark(OBJECTMARK_TagExp);
}
}
}
}
// Export an include line for each header
TArray<FUnrealSourceFile*> PublicHeaderGroupIncludes;
FUHTStringBuilder GeneratedFunctionDeclarations;
TArray<FUnrealSourceFile*> Exported;
{
// Get source files and ignore them next time round
static TSet<FUnrealSourceFile*> ExportedSourceFiles;
Exported = GetSourceFilesInDependencyOrder(Package, SourceFiles, ExportedSourceFiles);
ExportedSourceFiles.Append(Exported);
}
struct FGeneratedCPP
{
explicit FGeneratedCPP(FString&& InGeneratedCppFullFilename)
: GeneratedCppFullFilename(MoveTemp(InGeneratedCppFullFilename))
{
}
FString GeneratedCppFullFilename;
TArray<FString> RelativeIncludes;
FUHTStringBuilderLineCounter GeneratedText;
TSet<FString> CrossModuleReferences;
};
TMap<FUnrealSourceFile*, FGeneratedCPP> GeneratedCPPs;
for (FUnrealSourceFile* SourceFile : Exported)
{
FString ModuleRelativeFilename = SourceFile->GetFilename();
ConvertToBuildIncludePath(Package, ModuleRelativeFilename);
FString StrippedName = FPaths::GetBaseFilename(ModuleRelativeFilename);
FString BaseSourceFilename = GeneratedIncludeDirectory / StrippedName;
FUHTStringBuilder GeneratedHeaderText;
FGeneratedCPP& GeneratedCPP = GeneratedCPPs.Emplace(SourceFile, BaseSourceFilename + TEXT(".gen.cpp"));
GeneratedCPP.RelativeIncludes.Add(MoveTemp(ModuleRelativeFilename));
UniqueCrossModuleReferences = &GeneratedCPP.CrossModuleReferences;
ON_SCOPE_EXIT
{
UniqueCrossModuleReferences = nullptr;
};
FUHTStringBuilderLineCounter& OutText = GeneratedCPP.GeneratedText;
NameLookupCPP.SetCurrentSourceFile(SourceFile);
TArray<UEnum*> Enums;
TArray<UScriptStruct*> Structs;
TArray<UDelegateFunction*> DelegateFunctions;
SourceFile->GetScope()->SplitTypesIntoArrays(Enums, Structs, DelegateFunctions);
// Reverse the containers as they come out in the reverse order of declaration
Algo::Reverse(Enums);
Algo::Reverse(Structs);
Algo::Reverse(DelegateFunctions);
GeneratedHeaderText.Logf(
TEXT("#ifdef %s") LINE_TERMINATOR
TEXT("#error \"%s.generated.h already included, missing '#pragma once' in %s.h\"") LINE_TERMINATOR
TEXT("#endif") LINE_TERMINATOR
TEXT("#define %s") LINE_TERMINATOR
LINE_TERMINATOR,
*SourceFile->GetFileDefineName(), *SourceFile->GetStrippedFilename(), *SourceFile->GetStrippedFilename(), *SourceFile->GetFileDefineName());
// export delegate definitions
for (UDelegateFunction* Func : DelegateFunctions)
{
GeneratedFunctionDeclarations.Log(FTypeSingletonCache::Get(Func).GetExternDecl());
ExportDelegateDeclaration(OutText, *SourceFile, Func);
}
// Export enums declared in non-UClass headers.
for (UEnum* Enum : Enums)
{
// Is this ever not the case?
if (Enum->GetOuter()->IsA(UPackage::StaticClass()))
{
GeneratedFunctionDeclarations.Log(FTypeSingletonCache::Get(Enum).GetExternDecl());
ExportGeneratedEnumInitCode(OutText, *SourceFile, Enum);
}
}
// export boilerplate macros for structs
// reverse the order.
for (UScriptStruct* Struct : Structs)
{
GeneratedFunctionDeclarations.Log(FTypeSingletonCache::Get(Struct).GetExternDecl());
ExportGeneratedStructBodyMacros(GeneratedHeaderText, OutText, *SourceFile, Struct);
}
// export delegate wrapper function implementations
for (UDelegateFunction* Func : DelegateFunctions)
{
ExportDelegateDefinition(GeneratedHeaderText, *SourceFile, Func);
}
TArray<UClass*> DefinedClasses = SourceFile->GetDefinedClasses();
for (UClass* Class : DefinedClasses)
{
if (!(Class->ClassFlags & CLASS_Intrinsic))
{
ExportClassFromSourceFileInner(GeneratedHeaderText, OutText, GeneratedFunctionDeclarations, (FClass*)Class, *SourceFile);
}
GClassToSourceFileMap.Add(Class, SourceFile);
}
GeneratedHeaderText.Log(TEXT("#undef CURRENT_FILE_ID\r\n"));
GeneratedHeaderText.Logf(TEXT("#define CURRENT_FILE_ID %s\r\n\r\n\r\n"), *SourceFile->GetFileId());
for (UEnum* Enum : Enums)
{
ExportEnum(GeneratedHeaderText, Enum);
}
FString HeaderPath = BaseSourceFilename + TEXT(".generated.h");
bool bHasChanged = WriteHeader(*HeaderPath, GeneratedHeaderText, ForwardDeclarations);
SourceFile->SetGeneratedFilename(HeaderPath);
SourceFile->SetHasChanged(bHasChanged);
ForwardDeclarations.Reset();
if (GPublicSourceFileSet.Contains(SourceFile))
{
PublicHeaderGroupIncludes.AddUnique(SourceFile);
}
}
// Add includes for 'Within' classes
for (FUnrealSourceFile* SourceFile : Exported)
{
bool bAddedStructuredArchiveFromArchiveHeader = false;
bool bAddedArchiveUObjectFromStructuredArchiveHeader = false;
TArray<FString>& RelativeIncludes = GeneratedCPPs[SourceFile].RelativeIncludes;
TArray<UClass*> DefinedClasses = SourceFile->GetDefinedClasses();
for (UClass* Class : DefinedClasses)
{
if (Class->ClassWithin && Class->ClassWithin != UObject::StaticClass())
{
if (FUnrealSourceFile** WithinSourceFile = GClassToSourceFileMap.Find(Class->ClassWithin))
{
FString Header = GetBuildPath(**WithinSourceFile);
RelativeIncludes.AddUnique(MoveTemp(Header));
}
}
bool bHasSerializeToFArchive = Class->HasMetaData(TEXT("SerializeToFArchive"));
bool bHasSerializeToFStructuredArchive = Class->HasMetaData(TEXT("SerializeToFStructuredArchive"));
if (bHasSerializeToFArchive != bHasSerializeToFStructuredArchive)
{
if (!bAddedStructuredArchiveFromArchiveHeader && !bHasSerializeToFArchive)
{
RelativeIncludes.AddUnique(TEXT("Serialization/StructuredArchiveFromArchive.h"));
bAddedStructuredArchiveFromArchiveHeader = true;
}
if (!bAddedArchiveUObjectFromStructuredArchiveHeader && !bHasSerializeToFStructuredArchive)
{
RelativeIncludes.AddUnique(TEXT("Serialization/ArchiveUObjectFromStructuredArchive.h"));
bAddedArchiveUObjectFromStructuredArchiveHeader = true;
}
}
}
}
if (bWriteClassesH)
{
// Write the classes and enums header prefixes.
FUHTStringBuilder ClassesHText;
ClassesHText.Log(HeaderCopyright);
ClassesHText.Log(TEXT("#pragma once\r\n"));
ClassesHText.Log(TEXT("\r\n"));
ClassesHText.Log(TEXT("\r\n"));
// Fill with the rest source files from this package.
for (FUnrealSourceFile* SourceFile : GPublicSourceFileSet)
{
if (SourceFile->GetPackage() == InPackage)
{
PublicHeaderGroupIncludes.AddUnique(SourceFile);
}
}
for (FUnrealSourceFile* SourceFile : PublicHeaderGroupIncludes)
{
ClassesHText.Logf(TEXT("#include \"%s\"") LINE_TERMINATOR, *GetBuildPath(*SourceFile));
}
ClassesHText.Log(LINE_TERMINATOR);
// Save the classes header if it has changed.
FString ClassesHeaderPath = GeneratedIncludeDirectory / (PackageName + TEXT("Classes.h"));
SaveHeaderIfChanged(*ClassesHeaderPath, *ClassesHText);
}
// now export the names for the functions in this package
// notice we always export this file (as opposed to only exporting if we have any marked names)
// because there would be no way to know when the file was created otherwise
UE_LOG(LogCompile, Log, TEXT("Generating code for module '%s'"), *PackageName);
if (GeneratedFunctionDeclarations.Len())
{
uint32 CombinedCRC = 0;
for (const TPair<FUnrealSourceFile*, FGeneratedCPP>& GeneratedCPP : GeneratedCPPs)
{
uint32 SplitCRC = GenerateTextCRC(*GeneratedCPP.Value.GeneratedText);
if (CombinedCRC == 0)
{
// Don't combine in the first case because it keeps GUID backwards compatibility
CombinedCRC = SplitCRC;
}
else
{
CombinedCRC = HashCombine(SplitCRC, CombinedCRC);
}
}
FGeneratedCPP& GeneratedCPP = GeneratedCPPs.Emplace(nullptr, GeneratedIncludeDirectory / FString::Printf(TEXT("%s.init.gen.cpp"), *PackageName));
ExportGeneratedPackageInitCode(GeneratedCPP.GeneratedText, *GeneratedFunctionDeclarations, Package, CombinedCRC);
}
const FManifestModule* ModuleInfo = GPackageToManifestModuleMap.FindChecked(Package);
// Generate CPP files
TArray<FString> GeneratedCPPNames;
for (const TPair<FUnrealSourceFile*, FGeneratedCPP>& GeneratedCPP : GeneratedCPPs)
{
FUHTStringBuilder FileText;
FString GeneratedIncludes;
for (const FString& RelativeInclude : GeneratedCPP.Value.RelativeIncludes)
{
GeneratedIncludes += FString::Printf(TEXT("#include \"%s\"\r\n"), *RelativeInclude);
}
ExportGeneratedCPP(
FileText,
GeneratedCPP.Value.CrossModuleReferences,
*FPaths::GetCleanFilename(GeneratedCPP.Value.GeneratedCppFullFilename).Replace(TEXT(".gen.cpp"), TEXT("")).Replace(TEXT("."), TEXT("_")),
*GeneratedCPP.Value.GeneratedText,
*GeneratedIncludes
);
SaveHeaderIfChanged(*GeneratedCPP.Value.GeneratedCppFullFilename, *FileText);
GeneratedCPPNames.Add(FPaths::GetCleanFilename(*GeneratedCPP.Value.GeneratedCppFullFilename));
}
if (bAllowSaveExportedHeaders)
{
// Delete old generated .cpp files which we don't need because we generated less code than last time.
TArray<FString> FoundFiles;
FString BaseDir = FPaths::GetPath(ModuleInfo->GeneratedCPPFilenameBase);
IFileManager::Get().FindFiles(FoundFiles, *FPaths::Combine(BaseDir, TEXT("*.generated.cpp")), true, false);
IFileManager::Get().FindFiles(FoundFiles, *FPaths::Combine(BaseDir, TEXT("*.generated.*.cpp")), true, false);
IFileManager::Get().FindFiles(FoundFiles, *FPaths::Combine(BaseDir, TEXT("*.gen.cpp")), true, false);
IFileManager::Get().FindFiles(FoundFiles, *FPaths::Combine(BaseDir, TEXT("*.gen.*.cpp")), true, false);
for (FString& File : FoundFiles)
{
if (!GeneratedCPPNames.Contains(File))
{
IFileManager::Get().Delete(*FPaths::Combine(*BaseDir, *File));
}
}
}
// Export all changed headers from their temp files to the .h files
ExportUpdatedHeaders(PackageName);
// Delete stale *.generated.h files
DeleteUnusedGeneratedHeaders();
}
void FNativeClassHeaderGenerator::DeleteUnusedGeneratedHeaders()
{
TSet<FString> AllIntermediateFolders;
TSet<FString> PackageHeaderPathSet(PackageHeaderPaths);
for (const FString& PackageHeader : PackageHeaderPaths)
{
const FString IntermediatePath = FPaths::GetPath(PackageHeader);
if (AllIntermediateFolders.Contains(IntermediatePath))
{
continue;
}
AllIntermediateFolders.Add( IntermediatePath );
TArray<FString> AllHeaders;
IFileManager::Get().FindFiles( AllHeaders, *(IntermediatePath / TEXT("*.generated.h")), true, false );
for (const FString& Header : AllHeaders)
{
const FString HeaderPath = IntermediatePath / Header;
if (PackageHeaderPathSet.Contains(HeaderPath))
{
continue;
}
// Check intrinsic classes. Get the class name from file name by removing .generated.h.
const FString HeaderFilename = FPaths::GetBaseFilename(HeaderPath);
const int32 GeneratedIndex = HeaderFilename.Find(TEXT(".generated"), ESearchCase::IgnoreCase, ESearchDir::FromEnd);
const FString ClassName = HeaderFilename.Mid(0, GeneratedIndex);
UClass* IntrinsicClass = FindObject<UClass>(ANY_PACKAGE, *ClassName);
if (!IntrinsicClass || !IntrinsicClass->HasAnyClassFlags(CLASS_Intrinsic))
{
IFileManager::Get().Delete(*HeaderPath);
}
}
}
}
/**
* Dirty hack global variable to allow different result codes passed through
* exceptions. Needs to be fixed in future versions of UHT.
*/
ECompilationResult::Type GCompilationResult = ECompilationResult::OtherCompilationError;
bool FNativeClassHeaderGenerator::SaveHeaderIfChanged(const TCHAR* HeaderPath, const TCHAR* InNewHeaderContents)
{
if ( !bAllowSaveExportedHeaders )
{
// Return false indicating that the header did not need updating
return false;
}
const TCHAR* NewHeaderContents = InNewHeaderContents;
static bool bTestedCmdLine = false;
if (!bTestedCmdLine)
{
bTestedCmdLine = true;
const FString ReferenceGeneratedCodePath = FPaths::ProjectSavedDir() / TEXT("ReferenceGeneratedCode/");
const FString VerifyGeneratedCodePath = FPaths::ProjectSavedDir() / TEXT("VerifyGeneratedCode/");
if (FParse::Param(FCommandLine::Get(), TEXT("WRITEREF")))
{
bWriteContents = true;
UE_LOG(LogCompile, Log, TEXT("********************************* Writing reference generated code to %s."), *ReferenceGeneratedCodePath);
UE_LOG(LogCompile, Log, TEXT("********************************* Deleting all files in ReferenceGeneratedCode."));
IFileManager::Get().DeleteDirectory(*ReferenceGeneratedCodePath, false, true);
IFileManager::Get().MakeDirectory(*ReferenceGeneratedCodePath);
}
else if (FParse::Param( FCommandLine::Get(), TEXT("VERIFYREF")))
{
bVerifyContents = true;
UE_LOG(LogCompile, Log, TEXT("********************************* Writing generated code to %s and comparing to %s"), *VerifyGeneratedCodePath, *ReferenceGeneratedCodePath);
UE_LOG(LogCompile, Log, TEXT("********************************* Deleting all files in VerifyGeneratedCode."));
IFileManager::Get().DeleteDirectory(*VerifyGeneratedCodePath, false, true);
IFileManager::Get().MakeDirectory(*VerifyGeneratedCodePath);
}
}
if (bWriteContents || bVerifyContents)
{
FString Ref = FPaths::ProjectSavedDir() / TEXT("ReferenceGeneratedCode") / FPaths::GetCleanFilename(HeaderPath);
FString Verify = FPaths::ProjectSavedDir() / TEXT("VerifyGeneratedCode") / FPaths::GetCleanFilename(HeaderPath);
if (bWriteContents)
{
int32 i;
for (i = 0 ;i < 10; i++)
{
if (FFileHelper::SaveStringToFile(NewHeaderContents, *Ref))
{
break;
}
FPlatformProcess::Sleep(1.0f); // I don't know why this fails after we delete the directory
}
check(i<10);
}
else
{
int32 i;
for (i = 0 ;i < 10; i++)
{
if (FFileHelper::SaveStringToFile(NewHeaderContents, *Verify))
{
break;
}
FPlatformProcess::Sleep(1.0f); // I don't know why this fails after we delete the directory
}
check(i<10);
FString RefHeader;
FString Message;
if (!FFileHelper::LoadFileToString(RefHeader, *Ref))
{
Message = FString::Printf(TEXT("********************************* %s appears to be a new generated file."), *FPaths::GetCleanFilename(HeaderPath));
}
else
{
if (FCString::Strcmp(NewHeaderContents, *RefHeader) != 0)
{
Message = FString::Printf(TEXT("********************************* %s has changed."), *FPaths::GetCleanFilename(HeaderPath));
}
}
if (Message.Len())
{
UE_LOG(LogCompile, Log, TEXT("%s"), *Message);
ChangeMessages.AddUnique(Message);
}
}
}
FString OriginalHeaderLocal;
FFileHelper::LoadFileToString(OriginalHeaderLocal, HeaderPath);
const bool bHasChanged = OriginalHeaderLocal.Len() == 0 || FCString::Strcmp(*OriginalHeaderLocal, NewHeaderContents);
if (bHasChanged)
{
if (bFailIfGeneratedCodeChanges)
{
FString ConflictPath = FString(HeaderPath) + TEXT(".conflict");
FFileHelper::SaveStringToFile(NewHeaderContents, *ConflictPath);
GCompilationResult = ECompilationResult::FailedDueToHeaderChange;
FError::Throwf(TEXT("ERROR: '%s': Changes to generated code are not allowed - conflicts written to '%s'"), HeaderPath, *ConflictPath);
}
// save the updated version to a tmp file so that the user can see what will be changing
const FString TmpHeaderFilename = GenerateTempHeaderName( HeaderPath, false );
// delete any existing temp file
IFileManager::Get().Delete( *TmpHeaderFilename, false, true );
if ( !FFileHelper::SaveStringToFile(NewHeaderContents, *TmpHeaderFilename) )
{
UE_LOG_WARNING_UHT(TEXT("Failed to save header export preview: '%s'"), *TmpHeaderFilename);
}
TempHeaderPaths.Add(TmpHeaderFilename);
}
// Remember this header filename to be able to check for any old (unused) headers later.
PackageHeaderPaths.Add(FString(HeaderPath).Replace(TEXT("\\"), TEXT("/"), ESearchCase::CaseSensitive));
return bHasChanged;
}
/**
* Create a temp header file name from the header name
*
* @param CurrentFilename The filename off of which the current filename will be generated
* @param bReverseOperation Get the header from the temp file name instead
*
* @return The generated string
*/
FString FNativeClassHeaderGenerator::GenerateTempHeaderName( FString CurrentFilename, bool bReverseOperation )
{
return bReverseOperation
? CurrentFilename.Replace(TEXT(".tmp"), TEXT(""))
: CurrentFilename + TEXT(".tmp");
}
/**
* Exports the temp header files into the .h files, then deletes the temp files.
*
* @param PackageName Name of the package being saved
*/
void FNativeClassHeaderGenerator::ExportUpdatedHeaders(FString PackageName)
{
for (const FString& TmpFilename : TempHeaderPaths)
{
FString Filename = GenerateTempHeaderName( TmpFilename, true );
if (!IFileManager::Get().Move(*Filename, *TmpFilename, true, true))
{
UE_LOG(LogCompile, Error, TEXT("Error exporting %s: couldn't write file '%s'"), *PackageName, *Filename);
}
else
{
UE_LOG(LogCompile, Log, TEXT("Exported updated C++ header: %s"), *Filename);
}
}
}
/**
* Exports C++ definitions for boilerplate that was generated for a package.
*/
void FNativeClassHeaderGenerator::ExportGeneratedCPP(FOutputDevice& Out, const TSet<FString>& InCrossModuleReferences, const TCHAR* EmptyLinkFunctionPostfix, const TCHAR* Body, const TCHAR* OtherIncludes)
{
static const TCHAR EnableDeprecationWarnings [] = TEXT("PRAGMA_ENABLE_DEPRECATION_WARNINGS") LINE_TERMINATOR;
static const TCHAR DisableDeprecationWarnings[] = TEXT("PRAGMA_DISABLE_DEPRECATION_WARNINGS") LINE_TERMINATOR;
static const TCHAR DisableWarning4883 [] = TEXT("#ifdef _MSC_VER") LINE_TERMINATOR TEXT("#pragma warning (push)") LINE_TERMINATOR TEXT("#pragma warning (disable : 4883)") LINE_TERMINATOR TEXT("#endif") LINE_TERMINATOR;
static const TCHAR EnableWarning4883 [] = TEXT("#ifdef _MSC_VER") LINE_TERMINATOR TEXT("#pragma warning (pop)") LINE_TERMINATOR TEXT("#endif") LINE_TERMINATOR;
Out.Log(HeaderCopyright);
Out.Log(RequiredCPPIncludes);
Out.Log(OtherIncludes);
Out.Log(DisableWarning4883);
Out.Log(DisableDeprecationWarnings);
Out.Logf(TEXT("void EmptyLinkFunctionForGeneratedCode%s() {}") LINE_TERMINATOR, EmptyLinkFunctionPostfix);
if (InCrossModuleReferences.Num() > 0)
{
Out.Logf(TEXT("// Cross Module References\r\n"));
for (const FString& Ref : InCrossModuleReferences)
{
Out.Log(*Ref);
}
Out.Logf(TEXT("// End Cross Module References\r\n"));
}
Out.Log(Body);
Out.Log(EnableDeprecationWarnings);
Out.Log(EnableWarning4883);
}
/** Get all script plugins based on ini setting */
void GetScriptPlugins(TArray<IScriptGeneratorPluginInterface*>& ScriptPlugins)
{
FScopedDurationTimer PluginTimeTracker(GPluginOverheadTime);
ScriptPlugins = IModularFeatures::Get().GetModularFeatureImplementations<IScriptGeneratorPluginInterface>(TEXT("ScriptGenerator"));
UE_LOG(LogCompile, Log, TEXT("Found %d script generator plugins."), ScriptPlugins.Num());
// Check if we can use these plugins and initialize them
for (int32 PluginIndex = ScriptPlugins.Num() - 1; PluginIndex >= 0; --PluginIndex)
{
auto ScriptGenerator = ScriptPlugins[PluginIndex];
bool bSupportedPlugin = ScriptGenerator->SupportsTarget(GManifest.TargetName);
if (bSupportedPlugin)
{
// Find the right output directory for this plugin base on its target (Engine-side) plugin name.
FString GeneratedCodeModuleName = ScriptGenerator->GetGeneratedCodeModuleName();
const FManifestModule* GeneratedCodeModule = NULL;
FString OutputDirectory;
FString IncludeBase;
for (const FManifestModule& Module : GManifest.Modules)
{
if (Module.Name == GeneratedCodeModuleName)
{
GeneratedCodeModule = &Module;
}
}
if (GeneratedCodeModule)
{
UE_LOG(LogCompile, Log, TEXT("Initializing script generator \'%s\'"), *ScriptGenerator->GetGeneratorName());
ScriptGenerator->Initialize(GManifest.RootLocalPath, GManifest.RootBuildPath, GeneratedCodeModule->GeneratedIncludeDirectory, GeneratedCodeModule->IncludeBase);
}
else
{
// Can't use this plugin
UE_LOG(LogCompile, Log, TEXT("Unable to determine output directory for %s. Cannot export script glue with \'%s\'"), *GeneratedCodeModuleName, *ScriptGenerator->GetGeneratorName());
bSupportedPlugin = false;
}
}
if (!bSupportedPlugin)
{
UE_LOG(LogCompile, Log, TEXT("Script generator \'%s\' not supported for target: %s"), *ScriptGenerator->GetGeneratorName(), *GManifest.TargetName);
ScriptPlugins.RemoveAt(PluginIndex);
}
}
}
/**
* Tries to resolve super classes for classes defined in the given
* module.
*
* @param Package Modules package.
*/
void ResolveSuperClasses(UPackage* Package)
{
TArray<UObject*> Objects;
GetObjectsWithOuter(Package, Objects);
for (UObject* Object : Objects)
{
if (!Object->IsA<UClass>())
{
continue;
}
UClass* DefinedClass = Cast<UClass>(Object);
if (DefinedClass->HasAnyClassFlags(CLASS_Intrinsic | CLASS_NoExport))
{
continue;
}
const FSimplifiedParsingClassInfo& ParsingInfo = GTypeDefinitionInfoMap[DefinedClass]->GetUnrealSourceFile().GetDefinedClassParsingInfo(DefinedClass);
const FString& BaseClassName = ParsingInfo.GetBaseClassName();
const FString& BaseClassNameStripped = GetClassNameWithPrefixRemoved(BaseClassName);
if (!BaseClassNameStripped.IsEmpty() && !DefinedClass->GetSuperClass())
{
UClass* FoundBaseClass = FindObject<UClass>(Package, *BaseClassNameStripped);
if (FoundBaseClass == nullptr)
{
FoundBaseClass = FindObject<UClass>(ANY_PACKAGE, *BaseClassNameStripped);
}
if (FoundBaseClass == nullptr)
{
// Don't know its parent class. Raise error.
FError::Throwf(TEXT("Couldn't find parent type for '%s' named '%s' in current module or any other module parsed so far."), *DefinedClass->GetName(), *BaseClassName);
}
DefinedClass->SetSuperStruct(FoundBaseClass);
DefinedClass->ClassCastFlags |= FoundBaseClass->ClassCastFlags;
}
}
}
ECompilationResult::Type PreparseModules(const FString& ModuleInfoPath, int32& NumFailures)
{
// Three passes. 1) Public 'Classes' headers (legacy) 2) Public headers 3) Private headers
enum EHeaderFolderTypes
{
PublicClassesHeaders = 0,
PublicHeaders = 1,
PrivateHeaders,
FolderType_Count
};
ECompilationResult::Type Result = ECompilationResult::Succeeded;
for (FManifestModule& Module : GManifest.Modules)
{
if (Result != ECompilationResult::Succeeded)
{
break;
}
// Force regeneration of all subsequent modules, otherwise data will get corrupted.
Module.ForceRegeneration();
UPackage* Package = Cast<UPackage>(StaticFindObjectFast(UPackage::StaticClass(), NULL, FName(*Module.LongPackageName), false, false));
if (Package == NULL)
{
Package = CreatePackage(NULL, *Module.LongPackageName);
}
// Set some package flags for indicating that this package contains script
// NOTE: We do this even if we didn't have to create the package, because CoreUObject is compiled into UnrealHeaderTool and we still
// want to make sure our flags get set
Package->SetPackageFlags(PKG_ContainsScript | PKG_Compiling);
Package->ClearPackageFlags(PKG_ClientOptional | PKG_ServerSideOnly);
if (Module.ModuleType == EBuildModuleType::GameEditor || Module.ModuleType == EBuildModuleType::EngineEditor)
{
Package->SetPackageFlags(PKG_EditorOnly);
}
if (Module.ModuleType == EBuildModuleType::GameDeveloper || Module.ModuleType == EBuildModuleType::EngineDeveloper)
{
Package->SetPackageFlags(Package->GetPackageFlags() | PKG_Developer);
}
// Add new module or overwrite whatever we had loaded, that data is obsolete.
GPackageToManifestModuleMap.Add(Package, &Module);
double ThisModulePreparseTime = 0.0;
int32 NumHeadersPreparsed = 0;
FDurationTimer ThisModuleTimer(ThisModulePreparseTime);
ThisModuleTimer.Start();
// Pre-parse the headers
for (int32 PassIndex = 0; PassIndex < FolderType_Count && Result == ECompilationResult::Succeeded; ++PassIndex)
{
EHeaderFolderTypes CurrentlyProcessing = (EHeaderFolderTypes)PassIndex;
// We'll make an ordered list of all UObject headers we care about.
// @todo uht: Ideally 'dependson' would not be allowed from public -> private, or NOT at all for new style headers
const TArray<FString>& UObjectHeaders =
(CurrentlyProcessing == PublicClassesHeaders) ? Module.PublicUObjectClassesHeaders :
(CurrentlyProcessing == PublicHeaders ) ? Module.PublicUObjectHeaders :
Module.PrivateUObjectHeaders;
if (!UObjectHeaders.Num())
{
continue;
}
NumHeadersPreparsed += UObjectHeaders.Num();
for (const FString& RawFilename : UObjectHeaders)
{
#if !PLATFORM_EXCEPTIONS_DISABLED
try
#endif
{
// Import class.
const FString FullFilename = FPaths::ConvertRelativePathToFull(ModuleInfoPath, RawFilename);
FString HeaderFile;
if (!FFileHelper::LoadFileToString(HeaderFile, *FullFilename))
{
FError::Throwf(TEXT("UnrealHeaderTool was unable to load source file '%s'"), *FullFilename);
}
TSharedRef<FUnrealSourceFile> UnrealSourceFile = PerformInitialParseOnHeader(Package, *RawFilename, RF_Public | RF_Standalone, *HeaderFile);
FUnrealSourceFile* UnrealSourceFilePtr = &UnrealSourceFile.Get();
TArray<UClass*> DefinedClasses = UnrealSourceFile->GetDefinedClasses();
GUnrealSourceFilesMap.Add(RawFilename, UnrealSourceFile);
if (CurrentlyProcessing == PublicClassesHeaders)
{
GPublicSourceFileSet.Add(UnrealSourceFilePtr);
}
// Save metadata for the class path, both for it's include path and relative to the module base directory
if (FullFilename.StartsWith(Module.BaseDirectory))
{
// Get the path relative to the module directory
const TCHAR* ModuleRelativePath = *FullFilename + Module.BaseDirectory.Len();
UnrealSourceFile->SetModuleRelativePath(ModuleRelativePath);
// Calculate the include path
const TCHAR* IncludePath = ModuleRelativePath;
// Walk over the first potential slash
if (*IncludePath == TEXT('/'))
{
IncludePath++;
}
// Does this module path start with a known include path location? If so, we can cut that part out of the include path
static const TCHAR PublicFolderName[] = TEXT("Public/");
static const TCHAR PrivateFolderName[] = TEXT("Private/");
static const TCHAR ClassesFolderName[] = TEXT("Classes/");
if (FCString::Strnicmp(IncludePath, PublicFolderName, ARRAY_COUNT(PublicFolderName) - 1) == 0)
{
IncludePath += (ARRAY_COUNT(PublicFolderName) - 1);
}
else if (FCString::Strnicmp(IncludePath, PrivateFolderName, ARRAY_COUNT(PrivateFolderName) - 1) == 0)
{
IncludePath += (ARRAY_COUNT(PrivateFolderName) - 1);
}
else if (FCString::Strnicmp(IncludePath, ClassesFolderName, ARRAY_COUNT(ClassesFolderName) - 1) == 0)
{
IncludePath += (ARRAY_COUNT(ClassesFolderName) - 1);
}
// Add the include path
if (*IncludePath != 0)
{
UnrealSourceFile->SetIncludePath(MoveTemp(IncludePath));
}
}
}
#if !PLATFORM_EXCEPTIONS_DISABLED
catch (const FFileLineException& Ex)
{
TGuardValue<ELogTimes::Type> DisableLogTimes(GPrintLogTimes, ELogTimes::None);
FString AbsFilename = IFileManager::Get().ConvertToAbsolutePathForExternalAppForRead(*Ex.Filename);
FString Prefix = FString::Printf(TEXT("%s(%d): "), *AbsFilename, Ex.Line);
FString FormattedErrorMessage = FString::Printf(TEXT("%sError: %s\r\n"), *Prefix, *Ex.Message);
Result = GCompilationResult;
UE_LOG(LogCompile, Log, TEXT("%s"), *FormattedErrorMessage);
GWarn->Log(ELogVerbosity::Error, FormattedErrorMessage);
++NumFailures;
}
catch (TCHAR* ErrorMsg)
{
TGuardValue<ELogTimes::Type> DisableLogTimes(GPrintLogTimes, ELogTimes::None);
FString AbsFilename = IFileManager::Get().ConvertToAbsolutePathForExternalAppForRead(*RawFilename);
FString Prefix = FString::Printf(TEXT("%s(1): "), *AbsFilename);
FString FormattedErrorMessage = FString::Printf(TEXT("%sError: %s\r\n"), *Prefix, ErrorMsg);
Result = GCompilationResult;
UE_LOG(LogCompile, Log, TEXT("%s"), *FormattedErrorMessage);
GWarn->Log(ELogVerbosity::Error, FormattedErrorMessage);
++NumFailures;
}
#endif
}
if (Result == ECompilationResult::Succeeded && NumFailures != 0)
{
Result = ECompilationResult::OtherCompilationError;
}
}
// Don't resolve superclasses for module when loading from makefile.
// Data is only partially loaded at this point.
#if !PLATFORM_EXCEPTIONS_DISABLED
try
#endif
{
ResolveSuperClasses(Package);
}
#if !PLATFORM_EXCEPTIONS_DISABLED
catch (TCHAR* ErrorMsg)
{
TGuardValue<ELogTimes::Type> DisableLogTimes(GPrintLogTimes, ELogTimes::None);
FString FormattedErrorMessage = FString::Printf(TEXT("Error: %s\r\n"), ErrorMsg);
Result = GCompilationResult;
UE_LOG(LogCompile, Log, TEXT("%s"), *FormattedErrorMessage);
GWarn->Log(ELogVerbosity::Error, FormattedErrorMessage);
++NumFailures;
}
#endif
ThisModuleTimer.Stop();
UE_LOG(LogCompile, Log, TEXT("Preparsed module %s containing %i files(s) in %.2f secs."), *Module.LongPackageName, NumHeadersPreparsed, ThisModulePreparseTime);
}
return Result;
}
ECompilationResult::Type UnrealHeaderTool_Main(const FString& ModuleInfoFilename)
{
check(GIsUCCMakeStandaloneHeaderGenerator);
ECompilationResult::Type Result = ECompilationResult::Succeeded;
FString ModuleInfoPath = FPaths::GetPath(ModuleInfoFilename);
// Load the manifest file, giving a list of all modules to be processed, pre-sorted by dependency ordering
#if !PLATFORM_EXCEPTIONS_DISABLED
try
#endif
{
GManifest = FManifest::LoadFromFile(ModuleInfoFilename);
}
#if !PLATFORM_EXCEPTIONS_DISABLED
catch (const TCHAR* Ex)
{
UE_LOG(LogCompile, Error, TEXT("Failed to load manifest file '%s': %s"), *ModuleInfoFilename, Ex);
return GCompilationResult;
}
#endif
// Counters.
int32 NumFailures = 0;
double TotalModulePreparseTime = 0.0;
double TotalParseAndCodegenTime = 0.0;
{
FDurationTimer TotalModulePreparseTimer(TotalModulePreparseTime);
TotalModulePreparseTimer.Start();
Result = PreparseModules(ModuleInfoPath, NumFailures);
TotalModulePreparseTimer.Stop();
}
// Do the actual parse of the headers and generate for them
if (Result == ECompilationResult::Succeeded)
{
FScopedDurationTimer ParseAndCodeGenTimer(TotalParseAndCodegenTime);
// Verify that all script declared superclasses exist.
for (const UClass* ScriptClass : TObjectRange<UClass>())
{
const UClass* ScriptSuperClass = ScriptClass->GetSuperClass();
if (ScriptSuperClass && !ScriptSuperClass->HasAnyClassFlags(CLASS_Intrinsic) && GTypeDefinitionInfoMap.Contains(ScriptClass) && !GTypeDefinitionInfoMap.Contains(ScriptSuperClass))
{
class FSuperClassContextSupplier : public FContextSupplier
{
public:
FSuperClassContextSupplier(const UClass* Class)
: DefinitionInfo(GTypeDefinitionInfoMap[Class])
{ }
virtual FString GetContext() override
{
FString Filename = IFileManager::Get().ConvertToAbsolutePathForExternalAppForRead(*DefinitionInfo->GetUnrealSourceFile().GetFilename());
int32 LineNumber = DefinitionInfo->GetLineNumber();
return FString::Printf(TEXT("%s(%i)"), *Filename, LineNumber);
}
private:
TSharedRef<FUnrealTypeDefinitionInfo> DefinitionInfo;
} ContextSupplier(ScriptClass);
auto OldContext = GWarn->GetContext();
TGuardValue<ELogTimes::Type> DisableLogTimes(GPrintLogTimes, ELogTimes::None);
GWarn->SetContext(&ContextSupplier);
GWarn->Log(ELogVerbosity::Error, FString::Printf(TEXT("Error: Superclass %s of class %s not found"), *ScriptSuperClass->GetName(), *ScriptClass->GetName()));
GWarn->SetContext(OldContext);
Result = ECompilationResult::OtherCompilationError;
++NumFailures;
}
}
if (Result == ECompilationResult::Succeeded)
{
TArray<IScriptGeneratorPluginInterface*> ScriptPlugins;
// Can only export scripts for game targets
if (GManifest.IsGameTarget)
{
GetScriptPlugins(ScriptPlugins);
}
for (const FManifestModule& Module : GManifest.Modules)
{
if (UPackage* Package = Cast<UPackage>(StaticFindObjectFast(UPackage::StaticClass(), NULL, FName(*Module.LongPackageName), false, false)))
{
// Object which represents all parsed classes
FClasses AllClasses(Package);
AllClasses.Validate();
Result = FHeaderParser::ParseAllHeadersInside(AllClasses, GWarn, Package, Module, ScriptPlugins);
if (Result != ECompilationResult::Succeeded)
{
++NumFailures;
break;
}
}
}
{
FScopedDurationTimer PluginTimeTracker(GPluginOverheadTime);
for (IScriptGeneratorPluginInterface* ScriptGenerator : ScriptPlugins)
{
ScriptGenerator->FinishExport();
}
}
// Get a list of external dependencies from each enabled plugin
FString ExternalDependencies;
for (IScriptGeneratorPluginInterface* ScriptPlugin : ScriptPlugins)
{
TArray<FString> PluginExternalDependencies;
ScriptPlugin->GetExternalDependencies(PluginExternalDependencies);
for (const FString& PluginExternalDependency : PluginExternalDependencies)
{
ExternalDependencies += PluginExternalDependency + LINE_TERMINATOR;
}
}
FFileHelper::SaveStringToFile(ExternalDependencies, *GManifest.ExternalDependenciesFile);
}
}
// Avoid TArray slack for meta data.
GScriptHelper.Shrink();
UE_LOG(LogCompile, Log, TEXT("Preparsing %i modules took %.2f seconds"), GManifest.Modules.Num(), TotalModulePreparseTime);
UE_LOG(LogCompile, Log, TEXT("Parsing took %.2f seconds"), TotalParseAndCodegenTime - GHeaderCodeGenTime);
UE_LOG(LogCompile, Log, TEXT("Code generation took %.2f seconds"), GHeaderCodeGenTime);
UE_LOG(LogCompile, Log, TEXT("ScriptPlugin overhead was %.2f seconds"), GPluginOverheadTime);
UE_LOG(LogCompile, Log, TEXT("Macroize time was %.2f seconds"), GMacroizeTime);
if (bWriteContents)
{
UE_LOG(LogCompile, Log, TEXT("********************************* Wrote reference generated code to ReferenceGeneratedCode."));
}
else if (bVerifyContents)
{
UE_LOG(LogCompile, Log, TEXT("********************************* Wrote generated code to VerifyGeneratedCode and compared to ReferenceGeneratedCode"));
for (FString& Msg : ChangeMessages)
{
UE_LOG(LogCompile, Error, TEXT("%s"), *Msg);
}
TArray<FString> RefFileNames;
IFileManager::Get().FindFiles( RefFileNames, *(FPaths::ProjectSavedDir() / TEXT("ReferenceGeneratedCode/*.*")), true, false );
TArray<FString> VerFileNames;
IFileManager::Get().FindFiles( VerFileNames, *(FPaths::ProjectSavedDir() / TEXT("VerifyGeneratedCode/*.*")), true, false );
if (RefFileNames.Num() != VerFileNames.Num())
{
UE_LOG(LogCompile, Error, TEXT("Number of generated files mismatch ref=%d, ver=%d"), RefFileNames.Num(), VerFileNames.Num());
}
}
GIsRequestingExit = true;
if (Result != ECompilationResult::Succeeded || NumFailures > 0)
{
return ECompilationResult::OtherCompilationError;
}
return Result;
}
UClass* ProcessParsedClass(bool bClassIsAnInterface, TArray<FHeaderProvider>& DependentOn, const FString& ClassName, const FString& BaseClassName, UObject* InParent, EObjectFlags Flags)
{
FString ClassNameStripped = GetClassNameWithPrefixRemoved(*ClassName);
// All classes must start with a valid unreal prefix
if (!FHeaderParser::ClassNameHasValidPrefix(ClassName, ClassNameStripped))
{
FError::Throwf(TEXT("Invalid class name '%s'. The class name must have an appropriate prefix added (A for Actors, U for other classes)."), *ClassName);
}
// Ensure the base class has any valid prefix and exists as a valid class. Checking for the 'correct' prefix will occur during compilation
FString BaseClassNameStripped;
if (!BaseClassName.IsEmpty())
{
BaseClassNameStripped = GetClassNameWithPrefixRemoved(BaseClassName);
if (!FHeaderParser::ClassNameHasValidPrefix(BaseClassName, BaseClassNameStripped))
{
FError::Throwf(TEXT("No prefix or invalid identifier for base class %s.\nClass names must match Unreal prefix specifications (e.g., \"UObject\" or \"AActor\")"), *BaseClassName);
}
if (DependentOn.ContainsByPredicate([&](const FHeaderProvider& Dependency){ FString DependencyStr = Dependency.GetId(); return !DependencyStr.Contains(TEXT(".generated.h")) && FPaths::GetBaseFilename(DependencyStr) == ClassNameStripped; }))
{
FError::Throwf(TEXT("Class '%s' contains a dependency (#include or base class) to itself"), *ClassName);
}
}
//UE_LOG(LogCompile, Log, TEXT("Class: %s extends %s"),*ClassName,*BaseClassName);
// Handle failure and non-class headers.
if (BaseClassName.IsEmpty() && (ClassName != TEXT("UObject")))
{
FError::Throwf(TEXT("Class '%s' must inherit UObject or a UObject-derived class"), *ClassName);
}
if (ClassName == BaseClassName)
{
FError::Throwf(TEXT("Class '%s' cannot inherit from itself"), *ClassName);
}
// In case the file system and the class disagree on the case of the
// class name replace the fname with the one from the script class file
// This is needed because not all source control systems respect the
// original filename's case
FName ClassNameReplace(*ClassName, FNAME_Replace_Not_Safe_For_Threading);
// Use stripped class name for processing and replace as we did above
FName ClassNameStrippedReplace(*ClassNameStripped, FNAME_Replace_Not_Safe_For_Threading);
UClass* ResultClass = FindObject<UClass>(InParent, *ClassNameStripped);
// if we aren't generating headers, then we shouldn't set misaligned object, since it won't get cleared
const static bool bVerboseOutput = FParse::Param(FCommandLine::Get(), TEXT("VERBOSE"));
if (ResultClass == nullptr || !ResultClass->IsNative())
{
// detect if the same class name is used in multiple packages
if (ResultClass == nullptr)
{
UClass* ConflictingClass = FindObject<UClass>(ANY_PACKAGE, *ClassNameStripped, true);
if (ConflictingClass != nullptr)
{
UE_LOG_WARNING_UHT(TEXT("Duplicate class name: %s also exists in file %s"), *ClassName, *ConflictingClass->GetOutermost()->GetName());
}
}
// Create new class.
ResultClass = new(EC_InternalUseOnlyConstructor, InParent, *ClassNameStripped, Flags) UClass(FObjectInitializer(), nullptr);
GClassHeaderNameWithNoPathMap.Add(ResultClass, ClassNameStripped);
// add CLASS_Interface flag if the class is an interface
// NOTE: at this pre-parsing/importing stage, we cannot know if our super class is an interface or not,
// we leave the validation to the main header parser
if (bClassIsAnInterface)
{
ResultClass->ClassFlags |= CLASS_Interface;
}
if (bVerboseOutput)
{
UE_LOG(LogCompile, Log, TEXT("Imported: %s"), *ResultClass->GetFullName());
}
}
if (bVerboseOutput)
{
for (const auto& Dependency : DependentOn)
{
UE_LOG(LogCompile, Log, TEXT("\tAdding %s as a dependency"), *Dependency.ToString());
}
}
return ResultClass;
}
TSharedRef<FUnrealSourceFile> PerformInitialParseOnHeader(UPackage* InParent, const TCHAR* FileName, EObjectFlags Flags, const TCHAR* Buffer)
{
const TCHAR* InBuffer = Buffer;
// is the parsed class name an interface?
bool bClassIsAnInterface = false;
TArray<FHeaderProvider> DependsOn;
// Parse the header to extract the information needed
FUHTStringBuilder ClassHeaderTextStrippedOfCppText;
TArray<FSimplifiedParsingClassInfo> ParsedClassArray;
FHeaderParser::SimplifiedClassParse(FileName, Buffer, /*out*/ ParsedClassArray, /*out*/ DependsOn, ClassHeaderTextStrippedOfCppText);
FUnrealSourceFile* UnrealSourceFilePtr = new FUnrealSourceFile(InParent, FileName, MoveTemp(ClassHeaderTextStrippedOfCppText));
TSharedRef<FUnrealSourceFile> UnrealSourceFile = MakeShareable(UnrealSourceFilePtr);
for (auto& ParsedClassInfo : ParsedClassArray)
{
UClass* ResultClass = ProcessParsedClass(ParsedClassInfo.IsInterface(), DependsOn, ParsedClassInfo.GetClassName(), ParsedClassInfo.GetBaseClassName(), InParent, Flags);
GStructToSourceLine.Add(ResultClass, MakeTuple(UnrealSourceFile, ParsedClassInfo.GetClassDefLine()));
FScope::AddTypeScope(ResultClass, &UnrealSourceFile->GetScope().Get());
GTypeDefinitionInfoMap.Add(ResultClass, MakeShared<FUnrealTypeDefinitionInfo>(*UnrealSourceFilePtr, ParsedClassInfo.GetClassDefLine()));
UnrealSourceFile->AddDefinedClass(ResultClass, MoveTemp(ParsedClassInfo));
}
for (auto& DependsOnElement : DependsOn)
{
UnrealSourceFile->GetIncludes().AddUnique(DependsOnElement);
}
return UnrealSourceFile;
}
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