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30f891786a7474fdb129b8817c716440f58dca36
UnrealEngineUWP/Engine/Source/Developer/ShaderFormatOpenGL/Private/OpenGLShaderCompiler.cpp
Ben Marsh 30f891786a Copying //UE4/Dev-Core to //UE4/Dev-Main (Source: //UE4/Dev-Core @ 3847469) 
#lockdown Nick.Penwarden
#rb none

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

Change 3805828 by Gil.Gribb

	UE4 - Fixed a bug in the lock free stalling task queue and adjusted a comment. The code is not current used, so this is not actually change the way the code works.

Change 3806784 by Ben.Marsh

	UAT: Remove code to compile UBT when using UE4Build. It should already be compiled as a dependency of UAT.

Change 3807549 by Graeme.Thornton

	Add a cook timer around VerifyCanCookPackage. A licensee reports this taking a lot of time so it'll be good to account for it.

Change 3807727 by Graeme.Thornton

	Unhide the text asset format experimental editor option

Change 3807746 by Josh.Engebretson

	Remove WER from iOS platform

Change 3807928 by Robert.Manuszewski

	When async loading, GC Clusters will be created after packages have been processed to avoid situations where some of the objects that are being added to a cluster haven't been fully loaded yet

Change 3808221 by Steve.Robb

	GitHub #4307 - Made GetModulePtr() thread safe by not using GetModule()

	^ I'm not convinced by how much thread-safer this is really, but it's tidier anyway.

Change 3809233 by Graeme.Thornton

	TBA: Misc changes to text asset commandlet
	 - Rename mode to "loadsave"
	 - Add -outputFormat option which can be assigned "text" or "binary"
	 - When saving binary, use a differentiated filename so that source assets aren't overwritten

Change 3809518 by Ben.Marsh

	Remove the outdated UnrealSync automation script.

Change 3809643 by Steve.Robb

	GitHub #4277 : fix bug; FMath::FormatIntToHumanReadable 3rd comma and negative value

	#jira UE-53037

Change 3809862 by Steve.Robb

	GitHub #3342 : [FRotator.h] Fix to DecompressAxisFromByte to be more efficient and reflect its intent accurately

	#jira UE-42593

Change 3811190 by Graeme.Thornton

	Add support for writing specific log channels to their own files

Change 3811197 by Graeme.Thornton

	Minor updates to output formatting and timing for the text asset commandlet

Change 3811257 by Robert.Manuszewski

	Cluster creation will now be time-sliced

Change 3811565 by Steve.Robb

	Define out non-monolithic module functions.

Change 3812561 by Steve.Robb

	GitHub #3886 : Enable Brace-Initialization for Declaring Variables

	Incorrect semi-colon search removed after discussion with author.
	Test added.

	#jira UE-48242

Change 3812864 by Steve.Robb

	Removal of some unproven code which was supposed to fix hot reloading BP class functions in plugins.

	See: https://udn.unrealengine.com/questions/376978/aitask-blueprint-nodes-disappear-when-their-module.html

	#jira UE-53089

Change 3820358 by Ben.Marsh

	PR #4358: Incredibuild use ShowAgent by default (Contributed by projectgheist)


Change 3822594 by Ben.Marsh

	UAT: Improvements to log file handling.

	- Always create log files in the final location, rather than writing to a temp directory and copying in later.
	- Now supports -Verbose and -VeryVerbose for increasing log verbosity, rather than -Verbose=XXX.
	- Keep a backlog of log output before the log system is initialized, and flush it to the log file once it is.
	- Allow buildmachines to specify the uebp_FinalLogFolder environment variable, which is used to form paths for display. When build machines copy log files elsewhere after UAT finishes (eg. a network share), this allows error messages to display the right location.

Change 3823695 by Ben.Marsh

	UGS: Fix issue where precompiled binaries would not be shown as available for a change until scrolling the last submitted code change into the buffer (other symptoms, like de-focussing the main window would cause it to go back to an unavailable state, since the changes buffer was shrunk).

	Now always queries changes up to the last change for which zipped binaries are available.

Change 3823845 by Ben.Marsh

	UBT: Exclude C# projects for unsupported platforms when generating project files.

Change 3824180 by Ben.Marsh

	UGS: Add an option to show changes by build machines, and move the "only show reviewed" option in there too (Options > Show Changes).

	#jira

Change 3825777 by Steve.Robb

	Fix to return value of StringToBytes.

Change 3825810 by Ben.Marsh

	UBT: Reduce length of include paths for MSVC toolchain.

Change 3825822 by Robert.Manuszewski

	Optimized PIE lazy pointer fixup. Should be up to 8x faster now.

Change 3826734 by Ben.Marsh

	Remove code to disable TextureFormatAndroid on Linux. It seems to be an editor dependency.

Change 3827730 by Steve.Robb

	Try to avoid decltype(auto) if it's not supported.

	See: https://udn.unrealengine.com/questions/395644/build-417-with-c11-on-linux-ttuple-errors.html

Change 3827745 by Steve.Robb

	Initializer list support for TMap.

Change 3827770 by Steve.Robb

	GitHub #4399 : Added a CONSTEXPR qualifiers to FVariant::GetType()

	#jira UE-53813

Change 3829189 by Ben.Marsh

	UBT: Now always writes a minimal log file. By default, just contains the regular console output and any reasons why actions are outdated and needed to be executed. UAT directs child UBT instances to output logs into its own log folder, so that build machines can save them off.

Change 3830444 by Steve.Robb

	BuildVersion and ModuleManifest moved to Core, and parsing of these files reimplemented to avoid a JSON library.
	This should be revisited when Core has its own JSON library.

Change 3830718 by Ben.Marsh

	Fix incorrect group name being returned by FStatNameAndInfo::GetGroupName() for stat groups.

	The editor populates the viewport stats list by calling this for every registered stat and stat group (via FLevelViewportCommands::HandleNewStatGroup). The menu entry attempts to show the stat name with STAT_XXX stripped from the start as the menu item label, with the free-form text description as a tooltip.

	For stat groups, the it would previously just return the stat group name as "Groups" (due to the raw naming convention of "//Groups//STATGROUP_Foo//..."). Since this didn't match the expected naming convention in FLevelViewportCommands::HandleNewStat (ie. STAT_XXX or STATGROUP_XXX), it would fail to add it.

	When the first actual stat belonging to that group is added, it would add a menu entry for the group based on that, but the stat description no longer makes sense as a tooltip for the group. As a result, all the editor tooltips were junk.

	#jira UE-53845

Change 3831064 by Ben.Marsh

	Fix log file contention when spawning UBT recursively.

Change 3832654 by Ben.Marsh

	UGS: Fix error panel not being selected when opened, and weird alignment/color issues on it.

Change 3832680 by Ben.Marsh

	UGS: Fix failing to detect workspace if synced to a different stream. Seems to be a regression caused by recent P4D upgrade.

Change 3832695 by Ben.Marsh

	UGS: Invert the options in the 'Show Changes' submenu for simplicity.

Change 3833528 by Ben.Marsh

	UAT: Script to rewrite source files with public include paths relative to the 'Public' folder. Usage is: RebasePublicIncludePaths -UpdateDir=<Dir> [-Project=<Dir>] [-Write].

Change 3833543 by Ben.Marsh

	UBT: Allow targets to opt-out of having public include paths added for every dependent module. This reduces the command line length when building a target, which has recently become a problem with larger games (due to Microsoft's compiler embedding the command line into each object file, with a maximum length of 64kb). All engine modules are compiled with this enabled; games may opt into it by setting bLegacyPublicIncludePaths = false; from their .target.cs, as may individual modules.

Change 3834354 by Robert.Manuszewski

	Archetype pointer will now be cached to avoid locking the object tables when acquiring its info. It should also be faster this way regardless of any locks.

	#jira UE-52035

Change 3834400 by Robert.Manuszewski

	Fixing crash on exit caused by cached archetypes not being cleaned up before static exit cleanup.

	#jira UE-52035

Change 3834947 by Steve.Robb

	USE_FORMAT_STRING_TYPE_CHECKING removed from FMsg::Logf and FMsg::Logf_Internal.

Change 3835004 by Ben.Marsh

	Fix code that relies on dubious behavior of requiring referenced "include path only" modules having their _API macros set to be empty, even if the module is actually implemented in a separate DLL.

Change 3835340 by Ben.Marsh

	Fix errors making installed build from directories with spaces in the name.

Change 3835972 by Ben.Marsh

	UBT: Improved diagnostic message for targets which don't need a version file.

Change 3836019 by Ben.Marsh

	UBT: Fix warnings caused by defining linkage macros for third party libraries.

Change 3836269 by Ben.Marsh

	Fix message box larger than the screen height being created when a large number of modules are incompatible on startup.

Change 3836543 by Ben.Marsh

	Enable SoundMod plugin on Linux, since it's already supported through the editor.

Change 3836546 by Ben.Marsh

	PR #4412: fix type mismatch (Contributed by nakapon)


Change 3836805 by Ben.Marsh

	Fix commandlet to compile marketplace plugins.

Change 3836829 by Ben.Marsh

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

Change 3837036 by Ben.Marsh

	UBT: Write the previous and new contents of intermediate files to the log if they change. Makes it easier to debug unexpected rebuilds.

Change 3837037 by Ben.Marsh

	UBT: Fix engine modules having inconsistent definitions depending on whether modules are only referenced for their include paths vs being linked into a binary (due to different _API macro).

Change 3837040 by Ben.Marsh

	UBT: Remove code that initializes members in ModuleRules and TargetRules objects before the constructor is run. This is no longer necessary, now that the backwards-compatible default constructors have been removed.

Change 3837247 by Ben.Marsh

	UBT: Remove UELinkerFixups module, now that plugins and precompiled modules do not require hacks to force initialization (since they're linked in as object files).

	Encryption and signing keys are now set via macros expanded from the IMPLEMENT_PRIMARY_GAME_MODULE macro, via project-specific macros added in the TargetRules constructor.

Change 3837262 by Ben.Marsh

	UBT: Set whether a module is an engine module or not via a default value for the rules assembly. All non-program engine and enterprise modules are created with this flag set to true; program targets and modules are now created from a different assembly that sets it to false. This removes hacks from UEBuildModule needed to adjust behavior for different module types based on the directory containing the module.

	Also add a bUseBackwardsCompatibleDefaults flag to the TargetRules class, also initialized to a default value from a setting passed to the RulesAssembly constructor. This controls whether modules created for the target should be configured to allow breaking changes to default settings, and is set to false for all engine targets, and true for all project targets.

Change 3837343 by Ben.Marsh

	UBT: Remove the OverrideExecutableFileExtension target property. Change the only current use for this (the MayaLiveLinkPlugin target) to use a post build step to copy the file instead.

Change 3837356 by Ben.Marsh

	Fix invalid character encodings.

Change 3837727 by Graeme.Thornton

	UnrealPak: KeyGenerator: Only generate prime table when required, not all the time

Change 3837823 by Ben.Marsh

	UBT: Output warnings and errors when compiling module rules assembly in a way that allows them to be double-clicked in the Visual Studio output window.

Change 3837831 by Graeme.Thornton

	UBT: When parsing crypto settings, always load legacy data first, then allow the new system to override it. Provides the same key backwards compatibility that the editor settings class gives

Change 3837857 by Robert.Manuszewski

	PR #4404: Make FGCArrayPool singleton global instead of per-CU (Contributed by mhutch)


Change 3837943 by Robert.Manuszewski

	PR #4405: Fix FGarbageCollectionTracer (Contributed by mhutch)


Change 3838451 by Ben.Marsh

	UBT: Fix exceptions thrown on a background thread while caching C++ includes not being caught and logged correctly. Now captures exceptions and re-throws on the main thread.

	#jira UE-53996

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 3843790 by Graeme.Thornton

	UnrealPak: Log the size of all encrypted data

Change 3844258 by Ben.Marsh

	Fix plugin compile failure when created via new plugin wizard. Passing -plugin on the command line is unnecessary, and is now reserved for packaging external plugins for the marketplace.

	Also extend the length of time that the error toast stays visible, and don't delete the plugin on failure.

	#jira UE-54157

Change 3845796 by Ben.Marsh

	Workaround for slow performance of String.EndsWith() on Mono.

Change 3845823 by Ben.Marsh

	Fix case sensitive matching of platform names in -TargetPlatform=X argument to BuildCookRun.

	#jira UE-54123

Change 3845901 by Arciel.Rekman

	Linux: fix crash due to lambda lifetime issues (UE-54040).

	- The lambda goes out of scope in FBufferVisualizationMenuCommands::CreateVisualizationCommands, crashing the editor if compiled with a recent clang (5.0+).

	(Edigrating 3819174 to Dev-Core)

Change 3846439 by Ben.Marsh

	Revert CL 3822742 to always call Process.WaitForExit(). The Android target platform module in the editor spawns ADB.EXE, which inherits the editor's stdout/stderr handles and forks itself. Process.WaitForExit() waits for EOF on those pipes, which never occurs because the forked process never terminates.

	Proper fix is probably to have the engine explicitly duplicate stdout/stderr handles for new pipes to output process, but too risky before copying up to Main.

Change 3816608 by Ben.Marsh

	UBT: Use DirectoryReference objects for all include paths.

Change 3816954 by Ben.Marsh

	UBT: Remove bIncludeDependentLibrariesInLibrary option. This is not widely supported by platform toolchains, and is not used anywhere.

Change 3816986 by Ben.Marsh

	UBT: Remove UEBuildBinaryConfig; UEBuildBinary objects are now just created directly.

Change 3816991 by Ben.Marsh

	UBT: Deprecate PlatformSpecificDynamicallyLoadedModules. We no longer have any special behavior for these modules.

Change 3823090 by Ben.Marsh

	UAT: Improve logging for child UAT instances.

	- Calling RunUAT now requires an identifier for prefixing into the parent log, which is also used to determine the name of the log folder.
	- Stdout is no longer written to its own output file, since it's written to the parent stdout, the parent log file, and the child log file anyway.
	- Log folders for child UAT instances are left intact, rather than being copied to the parent folder. The derived names for the copied names were confusing and hard to read.
	- Output from UAT is no longer returned as a string. It should not be parsed anyway (but may be huge!). ProcessResult now supports running without capturing output.

Change 3826082 by Ben.Marsh

	UBT: Add a check to make sure that all modules that are precompiled are correctly marked to enable it, even if they are part of the build target.

Change 3827025 by Ben.Marsh

	UBT: Move the compile output directory into a property on the module, and explicitly pass it to the toolchain when compiling.

Change 3829927 by James.Hopkin

	Made HTTP interface const correct

Change 3833533 by Ben.Marsh

	Rewrite engine source files to base include paths relative to the "Public" directory. This allows reducing the number of public include paths that have to be added for engine modules.

Change 3835826 by Ben.Marsh

	UBT: Precompiled targets now generate a separate manifest for each precompiled module, rather than adding object files to a library. This fixes issues where object files from static libraries would not be linked into a target if a symbol in them was not referenced.

Change 3835969 by Ben.Marsh

	UBT: Fix cases where text is being written directly to the console rather than via logging functions.

Change 3837777 by Steve.Robb

	Format string type checking added to FOutputDevice::Logf.
	Fixes for those.

Change 3838569 by Steve.Robb

	Algo moved up a folder.

[CL 3847482 by Ben Marsh in Main branch]
2018-01-20 11:19:29 -05:00

1600 lines
51 KiB
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// Copyright 1998-2018 Epic Games, Inc. All Rights Reserved.
// .
#include "CoreMinimal.h"
#include "HAL/FileManager.h"
#include "Misc/FileHelper.h"
#include "Misc/Paths.h"
#include "Serialization/MemoryWriter.h"
#include "ShaderFormatOpenGL.h"
#if PLATFORM_WINDOWS
#include "Windows/AllowWindowsPlatformTypes.h"
#include "Windows/PreWindowsApi.h"
#include <objbase.h>
#include <assert.h>
#include <stdio.h>
#include "Windows/PostWindowsApi.h"
#include "Windows/MinWindows.h"
#include "Windows/HideWindowsPlatformTypes.h"
#endif
#include "ShaderCore.h"
#include "ShaderPreprocessor.h"
#include "ShaderCompilerCommon.h"
#include "GlslBackend.h"
#if PLATFORM_WINDOWS
#include "Windows/AllowWindowsPlatformTypes.h"
#include <GL/glcorearb.h>
#include <GL/glext.h>
#include <GL/wglext.h>
#include "Windows/HideWindowsPlatformTypes.h"
#elif PLATFORM_LINUX
#define GL_GLEXT_PROTOTYPES 1
#include <GL/glcorearb.h>
#include <GL/glext.h>
#include "SDL.h"
GLAPI GLuint APIENTRY glCreateShader (GLenum type);
GLAPI void APIENTRY glShaderSource (GLuint shader, GLsizei count, const GLchar* const *string, const GLint *length);
typedef SDL_Window* SDL_HWindow;
typedef SDL_GLContext SDL_HGLContext;
struct FPlatformOpenGLContext
{
SDL_HWindow hWnd;
SDL_HGLContext hGLContext; // this is a (void*) pointer
};
#elif PLATFORM_MAC
#include <OpenGL/OpenGL.h>
#include <OpenGL/gl3.h>
#include <OpenGL/gl3ext.h>
#ifndef GL_COMPUTE_SHADER
#define GL_COMPUTE_SHADER 0x91B9
#endif
#ifndef GL_TESS_EVALUATION_SHADER
#define GL_TESS_EVALUATION_SHADER 0x8E87
#endif
#ifndef GL_TESS_CONTROL_SHADER
#define GL_TESS_CONTROL_SHADER 0x8E88
#endif
#endif
#include "OpenGLUtil.h"
#include "OpenGLShaderResources.h"
DEFINE_LOG_CATEGORY_STATIC(LogOpenGLShaderCompiler, Log, All);
#define VALIDATE_GLSL_WITH_DRIVER 0
#define ENABLE_IMAGINATION_COMPILER 1
static FORCEINLINE bool IsES2Platform(GLSLVersion Version)
{
return (Version == GLSL_ES2 || Version == GLSL_150_ES2 || Version == GLSL_ES2_WEBGL || Version == GLSL_ES2_IOS || Version == GLSL_150_ES2_NOUB);
}
static FORCEINLINE bool IsPCES2Platform(GLSLVersion Version)
{
return (Version == GLSL_150_ES2 || Version == GLSL_150_ES2_NOUB || Version == GLSL_150_ES3_1);
}
// This function should match OpenGLShaderPlatformSeparable
bool FOpenGLFrontend::SupportsSeparateShaderObjects(GLSLVersion Version)
{
// Only desktop shader platforms can use separable shaders for now,
// the generated code relies on macros supplied at runtime to determine whether
// shaders may be separable and/or linked.
return Version == GLSL_150 || Version == GLSL_150_ES2 || Version == GLSL_150_ES2_NOUB || Version == GLSL_150_ES3_1 || Version == GLSL_430;
}
/*------------------------------------------------------------------------------
Shader compiling.
------------------------------------------------------------------------------*/
#if PLATFORM_WINDOWS
/** List all OpenGL entry points needed for shader compilation. */
#define ENUM_GL_ENTRYPOINTS(EnumMacro) \
EnumMacro(PFNGLCOMPILESHADERPROC,glCompileShader) \
EnumMacro(PFNGLCREATESHADERPROC,glCreateShader) \
EnumMacro(PFNGLDELETESHADERPROC,glDeleteShader) \
EnumMacro(PFNGLGETSHADERIVPROC,glGetShaderiv) \
EnumMacro(PFNGLGETSHADERINFOLOGPROC,glGetShaderInfoLog) \
EnumMacro(PFNGLSHADERSOURCEPROC,glShaderSource) \
EnumMacro(PFNGLDELETEBUFFERSPROC,glDeleteBuffers)
/** Define all GL functions. */
#define DEFINE_GL_ENTRYPOINTS(Type,Func) static Type Func = NULL;
ENUM_GL_ENTRYPOINTS(DEFINE_GL_ENTRYPOINTS);
/** This function is handled separately because it is used to get a real context. */
static PFNWGLCREATECONTEXTATTRIBSARBPROC wglCreateContextAttribsARB;
/** Platform specific OpenGL context. */
struct FPlatformOpenGLContext
{
HWND WindowHandle;
HDC DeviceContext;
HGLRC OpenGLContext;
};
/**
* A dummy wndproc.
*/
static LRESULT CALLBACK PlatformDummyGLWndproc(HWND hWnd, uint32 Message, WPARAM wParam, LPARAM lParam)
{
return DefWindowProc(hWnd, Message, wParam, lParam);
}
/**
* Initialize a pixel format descriptor for the given window handle.
*/
static void PlatformInitPixelFormatForDevice(HDC DeviceContext)
{
// Pixel format descriptor for the context.
PIXELFORMATDESCRIPTOR PixelFormatDesc;
FMemory::Memzero(PixelFormatDesc);
PixelFormatDesc.nSize = sizeof(PIXELFORMATDESCRIPTOR);
PixelFormatDesc.nVersion = 1;
PixelFormatDesc.dwFlags = PFD_DRAW_TO_WINDOW | PFD_SUPPORT_OPENGL | PFD_DOUBLEBUFFER;
PixelFormatDesc.iPixelType = PFD_TYPE_RGBA;
PixelFormatDesc.cColorBits = 32;
PixelFormatDesc.cDepthBits = 0;
PixelFormatDesc.cStencilBits = 0;
PixelFormatDesc.iLayerType = PFD_MAIN_PLANE;
// Set the pixel format and create the context.
int32 PixelFormat = ChoosePixelFormat(DeviceContext, &PixelFormatDesc);
if (!PixelFormat || !SetPixelFormat(DeviceContext, PixelFormat, &PixelFormatDesc))
{
UE_LOG(LogOpenGLShaderCompiler, Fatal,TEXT("Failed to set pixel format for device context."));
}
}
/**
* Create a dummy window used to construct OpenGL contexts.
*/
static void PlatformCreateDummyGLWindow(FPlatformOpenGLContext* OutContext)
{
const TCHAR* WindowClassName = TEXT("DummyGLToolsWindow");
// Register a dummy window class.
static bool bInitializedWindowClass = false;
if (!bInitializedWindowClass)
{
WNDCLASS wc;
bInitializedWindowClass = true;
FMemory::Memzero(wc);
wc.style = CS_OWNDC;
wc.lpfnWndProc = PlatformDummyGLWndproc;
wc.cbClsExtra = 0;
wc.cbWndExtra = 0;
wc.hInstance = NULL;
wc.hIcon = NULL;
wc.hCursor = NULL;
wc.hbrBackground = (HBRUSH)(COLOR_MENUTEXT);
wc.lpszMenuName = NULL;
wc.lpszClassName = WindowClassName;
ATOM ClassAtom = ::RegisterClass(&wc);
check(ClassAtom);
}
// Create a dummy window.
OutContext->WindowHandle = CreateWindowEx(
WS_EX_WINDOWEDGE,
WindowClassName,
NULL,
WS_POPUP,
CW_USEDEFAULT, CW_USEDEFAULT, CW_USEDEFAULT, CW_USEDEFAULT,
NULL, NULL, NULL, NULL);
check(OutContext->WindowHandle);
// Get the device context.
OutContext->DeviceContext = GetDC(OutContext->WindowHandle);
check(OutContext->DeviceContext);
PlatformInitPixelFormatForDevice(OutContext->DeviceContext);
}
/**
* Create a core profile OpenGL context.
*/
static void PlatformCreateOpenGLContextCore(FPlatformOpenGLContext* OutContext, int MajorVersion, int MinorVersion, HGLRC InParentContext)
{
check(wglCreateContextAttribsARB);
check(OutContext);
check(OutContext->DeviceContext);
int AttribList[] =
{
WGL_CONTEXT_MAJOR_VERSION_ARB, MajorVersion,
WGL_CONTEXT_MINOR_VERSION_ARB, MinorVersion,
WGL_CONTEXT_FLAGS_ARB, WGL_CONTEXT_FORWARD_COMPATIBLE_BIT_ARB | WGL_CONTEXT_DEBUG_BIT_ARB,
WGL_CONTEXT_PROFILE_MASK_ARB, WGL_CONTEXT_CORE_PROFILE_BIT_ARB,
0
};
OutContext->OpenGLContext = wglCreateContextAttribsARB(OutContext->DeviceContext, InParentContext, AttribList);
check(OutContext->OpenGLContext);
}
/**
* Make the context current.
*/
static void PlatformMakeGLContextCurrent(FPlatformOpenGLContext* Context)
{
check(Context && Context->OpenGLContext && Context->DeviceContext);
wglMakeCurrent(Context->DeviceContext, Context->OpenGLContext);
}
/**
* Initialize an OpenGL context so that shaders can be compiled.
*/
static void PlatformInitOpenGL(void*& ContextPtr, void*& PrevContextPtr, int InMajorVersion, int InMinorVersion)
{
static FPlatformOpenGLContext ShaderCompileContext = {0};
ContextPtr = (void*)wglGetCurrentDC();
PrevContextPtr = (void*)wglGetCurrentContext();
if (ShaderCompileContext.OpenGLContext == NULL && InMajorVersion && InMinorVersion)
{
PlatformCreateDummyGLWindow(&ShaderCompileContext);
// Disable warning C4191: 'type cast' : unsafe conversion from 'PROC' to 'XXX' while getting GL entry points.
#pragma warning(push)
#pragma warning(disable:4191)
if (wglCreateContextAttribsARB == NULL)
{
// Create a dummy context so that wglCreateContextAttribsARB can be initialized.
ShaderCompileContext.OpenGLContext = wglCreateContext(ShaderCompileContext.DeviceContext);
check(ShaderCompileContext.OpenGLContext);
PlatformMakeGLContextCurrent(&ShaderCompileContext);
wglCreateContextAttribsARB = (PFNWGLCREATECONTEXTATTRIBSARBPROC)wglGetProcAddress("wglCreateContextAttribsARB");
check(wglCreateContextAttribsARB);
wglDeleteContext(ShaderCompileContext.OpenGLContext);
}
// Create a context so that remaining GL function pointers can be initialized.
PlatformCreateOpenGLContextCore(&ShaderCompileContext, InMajorVersion, InMinorVersion, /*InParentContext=*/ NULL);
check(ShaderCompileContext.OpenGLContext);
PlatformMakeGLContextCurrent(&ShaderCompileContext);
if (glCreateShader == NULL)
{
// Initialize all entry points.
#define GET_GL_ENTRYPOINTS(Type,Func) Func = (Type)wglGetProcAddress(#Func);
ENUM_GL_ENTRYPOINTS(GET_GL_ENTRYPOINTS);
// Check that all of the entry points have been initialized.
bool bFoundAllEntryPoints = true;
#define CHECK_GL_ENTRYPOINTS(Type,Func) if (Func == NULL) { bFoundAllEntryPoints = false; UE_LOG(LogOpenGLShaderCompiler, Warning, TEXT("Failed to find entry point for %s"), TEXT(#Func)); }
ENUM_GL_ENTRYPOINTS(CHECK_GL_ENTRYPOINTS);
checkf(bFoundAllEntryPoints, TEXT("Failed to find all OpenGL entry points."));
}
// Restore warning C4191.
#pragma warning(pop)
}
PlatformMakeGLContextCurrent(&ShaderCompileContext);
}
static void PlatformReleaseOpenGL(void* ContextPtr, void* PrevContextPtr)
{
wglMakeCurrent((HDC)ContextPtr, (HGLRC)PrevContextPtr);
}
#elif PLATFORM_LINUX
static void _PlatformCreateDummyGLWindow(FPlatformOpenGLContext *OutContext)
{
static bool bInitializedWindowClass = false;
// Create a dummy window.
OutContext->hWnd = SDL_CreateWindow(NULL,
0, 0, 1, 1,
SDL_WINDOW_OPENGL | SDL_WINDOW_BORDERLESS | SDL_WINDOW_HIDDEN | SDL_WINDOW_SKIP_TASKBAR );
}
static void _PlatformCreateOpenGLContextCore(FPlatformOpenGLContext* OutContext)
{
check(OutContext);
SDL_HWindow PrevWindow = SDL_GL_GetCurrentWindow();
SDL_HGLContext PrevContext = SDL_GL_GetCurrentContext();
OutContext->hGLContext = SDL_GL_CreateContext(OutContext->hWnd);
SDL_GL_MakeCurrent(PrevWindow, PrevContext);
}
static void _ContextMakeCurrent(SDL_HWindow hWnd, SDL_HGLContext hGLDC)
{
GLint Result = SDL_GL_MakeCurrent( hWnd, hGLDC );
check(!Result);
}
static void PlatformInitOpenGL(void*& ContextPtr, void*& PrevContextPtr, int InMajorVersion, int InMinorVersion)
{
static bool bInitialized = (SDL_GL_GetCurrentWindow() != NULL) && (SDL_GL_GetCurrentContext() != NULL);
if (!bInitialized)
{
check(InMajorVersion > 3 || (InMajorVersion == 3 && InMinorVersion >= 2));
if (SDL_WasInit(0) == 0)
{
SDL_Init(SDL_INIT_VIDEO);
}
else
{
Uint32 InitializedSubsystemsMask = SDL_WasInit(SDL_INIT_EVERYTHING);
if ((InitializedSubsystemsMask & SDL_INIT_VIDEO) == 0)
{
SDL_InitSubSystem(SDL_INIT_VIDEO);
}
}
if (SDL_GL_LoadLibrary(NULL))
{
UE_LOG(LogOpenGLShaderCompiler, Fatal, TEXT("Unable to dynamically load libGL: %s"), ANSI_TO_TCHAR(SDL_GetError()));
}
if (SDL_GL_SetAttribute( SDL_GL_CONTEXT_MAJOR_VERSION, InMajorVersion))
{
UE_LOG(LogOpenGLShaderCompiler, Fatal, TEXT("Failed to set GL major version: %s"), ANSI_TO_TCHAR(SDL_GetError()));
}
if (SDL_GL_SetAttribute( SDL_GL_CONTEXT_MINOR_VERSION, InMinorVersion))
{
UE_LOG(LogOpenGLShaderCompiler, Fatal, TEXT("Failed to set GL minor version: %s"), ANSI_TO_TCHAR(SDL_GetError()));
}
if (SDL_GL_SetAttribute( SDL_GL_CONTEXT_FLAGS, SDL_GL_CONTEXT_FORWARD_COMPATIBLE_FLAG))
{
UE_LOG(LogOpenGLShaderCompiler, Fatal, TEXT("Failed to set GL flags: %s"), ANSI_TO_TCHAR(SDL_GetError()));
}
if (SDL_GL_SetAttribute( SDL_GL_CONTEXT_PROFILE_MASK, SDL_GL_CONTEXT_PROFILE_CORE))
{
UE_LOG(LogOpenGLShaderCompiler, Fatal, TEXT("Failed to set GL mask/profile: %s"), ANSI_TO_TCHAR(SDL_GetError()));
}
// Create a dummy context to verify opengl support.
FPlatformOpenGLContext DummyContext;
_PlatformCreateDummyGLWindow(&DummyContext);
_PlatformCreateOpenGLContextCore(&DummyContext);
if (DummyContext.hGLContext)
{
_ContextMakeCurrent(DummyContext.hWnd, DummyContext.hGLContext);
}
else
{
UE_LOG(LogOpenGLShaderCompiler, Fatal, TEXT("OpenGL %d.%d not supported by driver"), InMajorVersion, InMinorVersion);
return;
}
PrevContextPtr = NULL;
ContextPtr = DummyContext.hGLContext;
bInitialized = true;
}
PrevContextPtr = reinterpret_cast<void*>(SDL_GL_GetCurrentContext());
SDL_HGLContext NewContext = SDL_GL_CreateContext(SDL_GL_GetCurrentWindow());
SDL_GL_MakeCurrent(SDL_GL_GetCurrentWindow(), NewContext);
ContextPtr = reinterpret_cast<void*>(NewContext);
}
static void PlatformReleaseOpenGL(void* ContextPtr, void* PrevContextPtr)
{
SDL_GL_MakeCurrent(SDL_GL_GetCurrentWindow(), reinterpret_cast<SDL_HGLContext>(PrevContextPtr));
SDL_GL_DeleteContext(reinterpret_cast<SDL_HGLContext>(ContextPtr));
}
#elif PLATFORM_MAC
static void PlatformInitOpenGL(void*& ContextPtr, void*& PrevContextPtr, int InMajorVersion, int InMinorVersion)
{
check(InMajorVersion > 3 || (InMajorVersion == 3 && InMinorVersion >= 2));
CGLPixelFormatAttribute AttribList[] =
{
kCGLPFANoRecovery,
kCGLPFAAccelerated,
kCGLPFAOpenGLProfile,
(CGLPixelFormatAttribute)kCGLOGLPVersion_3_2_Core,
(CGLPixelFormatAttribute)0
};
CGLPixelFormatObj PixelFormat;
GLint NumFormats = 0;
CGLError Error = CGLChoosePixelFormat(AttribList, &PixelFormat, &NumFormats);
check(Error == kCGLNoError);
CGLContextObj ShaderCompileContext;
Error = CGLCreateContext(PixelFormat, NULL, &ShaderCompileContext);
check(Error == kCGLNoError);
Error = CGLDestroyPixelFormat(PixelFormat);
check(Error == kCGLNoError);
PrevContextPtr = (void*)CGLGetCurrentContext();
Error = CGLSetCurrentContext(ShaderCompileContext);
check(Error == kCGLNoError);
ContextPtr = (void*)ShaderCompileContext;
}
static void PlatformReleaseOpenGL(void* ContextPtr, void* PrevContextPtr)
{
CGLContextObj ShaderCompileContext = (CGLContextObj)ContextPtr;
CGLContextObj PreviousShaderCompileContext = (CGLContextObj)PrevContextPtr;
CGLError Error;
Error = CGLSetCurrentContext(PreviousShaderCompileContext);
check(Error == kCGLNoError);
Error = CGLDestroyContext(ShaderCompileContext);
check(Error == kCGLNoError);
}
#endif
/** Map shader frequency -> GL shader type. */
GLenum GLFrequencyTable[] =
{
GL_VERTEX_SHADER, // SF_Vertex
GL_TESS_CONTROL_SHADER, // SF_Hull
GL_TESS_EVALUATION_SHADER, // SF_Domain
GL_FRAGMENT_SHADER, // SF_Pixel
GL_GEOMETRY_SHADER, // SF_Geometry
GL_COMPUTE_SHADER, // SF_Compute
};
static_assert(ARRAY_COUNT(GLFrequencyTable) == SF_NumFrequencies, "Frequency table size mismatch.");
static inline bool IsDigit(TCHAR Char)
{
return Char >= '0' && Char <= '9';
}
/**
* Parse a GLSL error.
* @param OutErrors - Storage for shader compiler errors.
* @param InLine - A single line from the compile error log.
*/
void ParseGlslError(TArray<FShaderCompilerError>& OutErrors, const FString& InLine)
{
const TCHAR* ErrorPrefix = TEXT("error: 0:");
const TCHAR* p = *InLine;
if (FCString::Strnicmp(p, ErrorPrefix, 9) == 0)
{
FString ErrorMsg;
int32 LineNumber = 0;
p += FCString::Strlen(ErrorPrefix);
// Skip to a number, take that to be the line number.
while (*p && !IsDigit(*p)) { p++; }
while (*p && IsDigit(*p))
{
LineNumber = 10 * LineNumber + (*p++ - TEXT('0'));
}
// Skip to the next alphanumeric value, treat that as the error message.
while (*p && !FChar::IsAlnum(*p)) { p++; }
ErrorMsg = p;
// Generate a compiler error.
if (ErrorMsg.Len() > 0)
{
// Note that no mapping exists from the GLSL source to the original
// HLSL source.
FShaderCompilerError* CompilerError = new(OutErrors) FShaderCompilerError;
CompilerError->StrippedErrorMessage = FString::Printf(
TEXT("driver compile error(%d): %s"),
LineNumber,
*ErrorMsg
);
}
}
}
static TArray<ANSICHAR> ParseIdentifierANSI(const FString& Str)
{
TArray<ANSICHAR> Result;
Result.Reserve(Str.Len());
for (int32 Index = 0; Index < Str.Len(); ++Index)
{
Result.Add(FChar::ToLower((ANSICHAR)Str[Index]));
}
Result.Add('\0');
return Result;
}
static uint32 ParseNumber(const TCHAR* Str)
{
uint32 Num = 0;
while (*Str && IsDigit(*Str))
{
Num = Num * 10 + *Str++ - '0';
}
return Num;
}
static ANSICHAR TranslateFrequencyToCrossCompilerPrefix(int32 Frequency)
{
switch (Frequency)
{
case SF_Vertex: return 'v';
case SF_Pixel: return 'p';
case SF_Hull: return 'h';
case SF_Domain: return 'd';
case SF_Geometry: return 'g';
case SF_Compute: return 'c';
}
return '\0';
}
static TCHAR* SetIndex(TCHAR* Str, int32 Offset, int32 Index)
{
check(Index >= 0 && Index < 100);
Str += Offset;
if (Index >= 10)
{
*Str++ = '0' + (TCHAR)(Index / 10);
}
*Str++ = '0' + (TCHAR)(Index % 10);
*Str = '\0';
return Str;
}
/**
* Construct the final microcode from the compiled and verified shader source.
* @param ShaderOutput - Where to store the microcode and parameter map.
* @param InShaderSource - GLSL source with input/output signature.
* @param SourceLen - The length of the GLSL source code.
*/
void FOpenGLFrontend::BuildShaderOutput(
FShaderCompilerOutput& ShaderOutput,
const FShaderCompilerInput& ShaderInput,
const ANSICHAR* InShaderSource,
int32 SourceLen,
GLSLVersion Version
)
{
const ANSICHAR* USFSource = InShaderSource;
CrossCompiler::FHlslccHeader CCHeader;
if (!CCHeader.Read(USFSource, SourceLen))
{
UE_LOG(LogOpenGLShaderCompiler, Error, TEXT("Bad hlslcc header found"));
}
if (*USFSource != '#')
{
UE_LOG(LogOpenGLShaderCompiler, Error, TEXT("Bad hlslcc header found! Missing '#'!"));
}
FOpenGLCodeHeader Header = {0};
FShaderParameterMap& ParameterMap = ShaderOutput.ParameterMap;
EShaderFrequency Frequency = (EShaderFrequency)ShaderOutput.Target.Frequency;
TBitArray<> UsedUniformBufferSlots;
UsedUniformBufferSlots.Init(false, 32);
// Write out the magic markers.
Header.GlslMarker = 0x474c534c;
switch (Frequency)
{
case SF_Vertex:
Header.FrequencyMarker = 0x5653;
break;
case SF_Pixel:
Header.FrequencyMarker = 0x5053;
break;
case SF_Geometry:
Header.FrequencyMarker = 0x4753;
break;
case SF_Hull:
Header.FrequencyMarker = 0x4853;
break;
case SF_Domain:
Header.FrequencyMarker = 0x4453;
break;
case SF_Compute:
Header.FrequencyMarker = 0x4353;
break;
default:
UE_LOG(LogOpenGLShaderCompiler, Fatal, TEXT("Invalid shader frequency: %d"), (int32)Frequency);
}
static const FString AttributePrefix = TEXT("in_ATTRIBUTE");
static const FString GL_Prefix = TEXT("gl_");
for (auto& Input : CCHeader.Inputs)
{
// Only process attributes for vertex shaders.
if (Frequency == SF_Vertex && Input.Name.StartsWith(AttributePrefix))
{
int32 AttributeIndex = ParseNumber(*Input.Name + AttributePrefix.Len());
Header.Bindings.InOutMask |= (1 << AttributeIndex);
}
// Record user-defined input varyings
else if (!Input.Name.StartsWith(GL_Prefix))
{
FOpenGLShaderVarying Var;
Var.Location = Input.Index;
Var.Varying = ParseIdentifierANSI(Input.Name);
Header.Bindings.InputVaryings.Add(Var);
}
}
// Generate vertex attribute remapping table.
// This is used on devices where GL_MAX_VERTEX_ATTRIBS < 16
if (Frequency == SF_Vertex)
{
uint32 AttributeMask = Header.Bindings.InOutMask;
int32 NextAttributeSlot = 0;
Header.Bindings.VertexRemappedMask = 0;
for (int32 AttributeIndex = 0; AttributeIndex < 16; AttributeIndex++, AttributeMask >>= 1)
{
if (AttributeMask & 0x1)
{
Header.Bindings.VertexRemappedMask |= (1 << NextAttributeSlot);
Header.Bindings.VertexAttributeRemap[AttributeIndex] = NextAttributeSlot++;
}
else
{
Header.Bindings.VertexAttributeRemap[AttributeIndex] = -1;
}
}
}
static const FString TargetPrefix = "out_Target";
static const FString GL_FragDepth = "gl_FragDepth";
for (auto& Output : CCHeader.Outputs)
{
// Only targets for pixel shaders must be tracked.
if (Frequency == SF_Pixel && Output.Name.StartsWith(TargetPrefix))
{
uint8 TargetIndex = ParseNumber(*Output.Name + TargetPrefix.Len());
Header.Bindings.InOutMask |= (1 << TargetIndex);
}
// Only depth writes for pixel shaders must be tracked.
else if (Frequency == SF_Pixel && Output.Name.Equals(GL_FragDepth))
{
Header.Bindings.InOutMask |= 0x8000;
}
// Record user-defined output varyings
else if (!Output.Name.StartsWith(GL_Prefix))
{
FOpenGLShaderVarying Var;
Var.Location = Output.Index;
Var.Varying = ParseIdentifierANSI(Output.Name);
Header.Bindings.OutputVaryings.Add(Var);
}
}
// general purpose binding name
TCHAR BindingName[] = TEXT("XYZ\0\0\0\0\0\0\0\0");
BindingName[0] = TranslateFrequencyToCrossCompilerPrefix(Frequency);
TMap<FString, FString> BindingNameMap;
// Then 'normal' uniform buffers.
for (auto& UniformBlock : CCHeader.UniformBlocks)
{
uint16 UBIndex = UniformBlock.Index;
check(UBIndex == Header.Bindings.NumUniformBuffers);
UsedUniformBufferSlots[UBIndex] = true;
if (OutputTrueParameterNames())
{
// make the final name this will be in the shader
BindingName[1] = 'b';
SetIndex(BindingName, 2, UBIndex);
BindingNameMap.Add(BindingName, UniformBlock.Name);
}
else
{
ParameterMap.AddParameterAllocation(*UniformBlock.Name, Header.Bindings.NumUniformBuffers, 0, 0);
}
Header.Bindings.NumUniformBuffers++;
}
const uint16 BytesPerComponent = 4;
// Packed global uniforms
TMap<ANSICHAR, uint16> PackedGlobalArraySize;
for (auto& PackedGlobal : CCHeader.PackedGlobals)
{
ParameterMap.AddParameterAllocation(
*PackedGlobal.Name,
PackedGlobal.PackedType,
PackedGlobal.Offset * BytesPerComponent,
PackedGlobal.Count * BytesPerComponent
);
uint16& Size = PackedGlobalArraySize.FindOrAdd(PackedGlobal.PackedType);
Size = FMath::Max<uint16>(BytesPerComponent * (PackedGlobal.Offset + PackedGlobal.Count), Size);
}
// Packed Uniform Buffers
TMap<int, TMap<ANSICHAR, uint16> > PackedUniformBuffersSize;
for (auto& PackedUB : CCHeader.PackedUBs)
{
checkf(OutputTrueParameterNames() == false, TEXT("Unexpected Packed UBs used with a shader format that needs true parameter names - If this is hit, we need to figure out how to handle them"));
check(PackedUB.Attribute.Index == Header.Bindings.NumUniformBuffers);
UsedUniformBufferSlots[PackedUB.Attribute.Index] = true;
if (OutputTrueParameterNames())
{
BindingName[1] = 'b';
// ???
}
else
{
ParameterMap.AddParameterAllocation(*PackedUB.Attribute.Name, Header.Bindings.NumUniformBuffers, 0, 0);
}
Header.Bindings.NumUniformBuffers++;
// Nothing else...
//for (auto& Member : PackedUB.Members)
//{
//}
}
// Packed Uniform Buffers copy lists & setup sizes for each UB/Precision entry
enum EFlattenUBState
{
Unknown,
GroupedUBs,
FlattenedUBs,
};
EFlattenUBState UBState = Unknown;
for (auto& PackedUBCopy : CCHeader.PackedUBCopies)
{
CrossCompiler::FUniformBufferCopyInfo CopyInfo;
CopyInfo.SourceUBIndex = PackedUBCopy.SourceUB;
CopyInfo.SourceOffsetInFloats = PackedUBCopy.SourceOffset;
CopyInfo.DestUBIndex = PackedUBCopy.DestUB;
CopyInfo.DestUBTypeName = PackedUBCopy.DestPackedType;
CopyInfo.DestUBTypeIndex = CrossCompiler::PackedTypeNameToTypeIndex(CopyInfo.DestUBTypeName);
CopyInfo.DestOffsetInFloats = PackedUBCopy.DestOffset;
CopyInfo.SizeInFloats = PackedUBCopy.Count;
Header.UniformBuffersCopyInfo.Add(CopyInfo);
auto& UniformBufferSize = PackedUniformBuffersSize.FindOrAdd(CopyInfo.DestUBIndex);
uint16& Size = UniformBufferSize.FindOrAdd(CopyInfo.DestUBTypeName);
Size = FMath::Max<uint16>(BytesPerComponent * (CopyInfo.DestOffsetInFloats + CopyInfo.SizeInFloats), Size);
check(UBState == Unknown || UBState == GroupedUBs);
UBState = GroupedUBs;
}
for (auto& PackedUBCopy : CCHeader.PackedUBGlobalCopies)
{
CrossCompiler::FUniformBufferCopyInfo CopyInfo;
CopyInfo.SourceUBIndex = PackedUBCopy.SourceUB;
CopyInfo.SourceOffsetInFloats = PackedUBCopy.SourceOffset;
CopyInfo.DestUBIndex = PackedUBCopy.DestUB;
CopyInfo.DestUBTypeName = PackedUBCopy.DestPackedType;
CopyInfo.DestUBTypeIndex = CrossCompiler::PackedTypeNameToTypeIndex(CopyInfo.DestUBTypeName);
CopyInfo.DestOffsetInFloats = PackedUBCopy.DestOffset;
CopyInfo.SizeInFloats = PackedUBCopy.Count;
Header.UniformBuffersCopyInfo.Add(CopyInfo);
uint16& Size = PackedGlobalArraySize.FindOrAdd(CopyInfo.DestUBTypeName);
Size = FMath::Max<uint16>(BytesPerComponent * (CopyInfo.DestOffsetInFloats + CopyInfo.SizeInFloats), Size);
check(UBState == Unknown || UBState == FlattenedUBs);
UBState = FlattenedUBs;
}
Header.Bindings.bFlattenUB = (UBState == FlattenedUBs);
// Setup Packed Array info
Header.Bindings.PackedGlobalArrays.Reserve(PackedGlobalArraySize.Num());
for (auto Iterator = PackedGlobalArraySize.CreateIterator(); Iterator; ++Iterator)
{
ANSICHAR TypeName = Iterator.Key();
uint16 Size = Iterator.Value();
Size = (Size + 0xf) & (~0xf);
CrossCompiler::FPackedArrayInfo Info;
Info.Size = Size;
Info.TypeName = TypeName;
Info.TypeIndex = CrossCompiler::PackedTypeNameToTypeIndex(TypeName);
Header.Bindings.PackedGlobalArrays.Add(Info);
}
// Setup Packed Uniform Buffers info
Header.Bindings.PackedUniformBuffers.Reserve(PackedUniformBuffersSize.Num());
for (auto Iterator = PackedUniformBuffersSize.CreateIterator(); Iterator; ++Iterator)
{
int BufferIndex = Iterator.Key();
auto& ArraySizes = Iterator.Value();
TArray<CrossCompiler::FPackedArrayInfo> InfoArray;
InfoArray.Reserve(ArraySizes.Num());
for (auto IterSizes = ArraySizes.CreateIterator(); IterSizes; ++IterSizes)
{
ANSICHAR TypeName = IterSizes.Key();
uint16 Size = IterSizes.Value();
Size = (Size + 0xf) & (~0xf);
CrossCompiler::FPackedArrayInfo Info;
Info.Size = Size;
Info.TypeName = TypeName;
Info.TypeIndex = CrossCompiler::PackedTypeNameToTypeIndex(TypeName);
InfoArray.Add(Info);
}
Header.Bindings.PackedUniformBuffers.Add(InfoArray);
}
// Then samplers.
for (auto& Sampler : CCHeader.Samplers)
{
if (OutputTrueParameterNames())
{
BindingName[1] = 's';
SetIndex(BindingName, 2, Sampler.Offset);
BindingNameMap.Add(BindingName, Sampler.Name);
}
else
{
ParameterMap.AddParameterAllocation(
*Sampler.Name,
0,
Sampler.Offset,
Sampler.Count
);
}
Header.Bindings.NumSamplers = FMath::Max<uint8>(
Header.Bindings.NumSamplers,
Sampler.Offset + Sampler.Count
);
for (auto& SamplerState : Sampler.SamplerStates)
{
if (OutputTrueParameterNames())
{
// add an entry for the sampler parameter as well
BindingNameMap.Add(FString(BindingName) + TEXT("_samp"), SamplerState);
}
else
{
ParameterMap.AddParameterAllocation(
*SamplerState,
0,
Sampler.Offset,
Sampler.Count
);
}
}
}
// Then UAVs (images in GLSL)
for (auto& UAV : CCHeader.UAVs)
{
if (OutputTrueParameterNames())
{
// make the final name this will be in the shader
BindingName[1] = 'i';
SetIndex(BindingName, 2, UAV.Offset);
BindingNameMap.Add(BindingName, UAV.Name);
}
else
{
ParameterMap.AddParameterAllocation(
*UAV.Name,
0,
UAV.Offset,
UAV.Count
);
}
Header.Bindings.NumUAVs = FMath::Max<uint8>(
Header.Bindings.NumSamplers,
UAV.Offset + UAV.Count
);
}
Header.ShaderName = CCHeader.Name;
// perform any post processing this frontend class may need to do
ShaderOutput.bSucceeded = PostProcessShaderSource(Version, Frequency, USFSource, SourceLen + 1 - (USFSource - InShaderSource), ParameterMap, BindingNameMap, ShaderOutput.Errors, ShaderInput);
// Build the SRT for this shader.
{
// Build the generic SRT for this shader.
FShaderCompilerResourceTable GenericSRT;
BuildResourceTableMapping(ShaderInput.Environment.ResourceTableMap, ShaderInput.Environment.ResourceTableLayoutHashes, UsedUniformBufferSlots, ShaderOutput.ParameterMap, GenericSRT);
// Copy over the bits indicating which resource tables are active.
Header.Bindings.ShaderResourceTable.ResourceTableBits = GenericSRT.ResourceTableBits;
Header.Bindings.ShaderResourceTable.ResourceTableLayoutHashes = GenericSRT.ResourceTableLayoutHashes;
// Now build our token streams.
BuildResourceTableTokenStream(GenericSRT.TextureMap, GenericSRT.MaxBoundResourceTable, Header.Bindings.ShaderResourceTable.TextureMap);
BuildResourceTableTokenStream(GenericSRT.ShaderResourceViewMap, GenericSRT.MaxBoundResourceTable, Header.Bindings.ShaderResourceTable.ShaderResourceViewMap);
BuildResourceTableTokenStream(GenericSRT.SamplerMap, GenericSRT.MaxBoundResourceTable, Header.Bindings.ShaderResourceTable.SamplerMap);
BuildResourceTableTokenStream(GenericSRT.UnorderedAccessViewMap, GenericSRT.MaxBoundResourceTable, Header.Bindings.ShaderResourceTable.UnorderedAccessViewMap);
}
const int32 MaxSamplers = GetMaxSamplers(Version);
if (Header.Bindings.NumSamplers > MaxSamplers)
{
ShaderOutput.bSucceeded = false;
FShaderCompilerError* NewError = new(ShaderOutput.Errors) FShaderCompilerError();
NewError->StrippedErrorMessage =
FString::Printf(TEXT("shader uses %d samplers exceeding the limit of %d"),
Header.Bindings.NumSamplers, MaxSamplers);
}
else if (ShaderOutput.bSucceeded)
{
// Write out the header
FMemoryWriter Ar(ShaderOutput.ShaderCode.GetWriteAccess(), true);
Ar << Header;
if (OptionalSerializeOutputAndReturnIfSerialized(Ar) == false)
{
Ar.Serialize((void*)USFSource, SourceLen + 1 - (USFSource - InShaderSource));
ShaderOutput.bSucceeded = true;
}
// store data we can pickup later with ShaderCode.FindOptionalData('n'), could be removed for shipping
// Daniel L: This GenerateShaderName does not generate a deterministic output among shaders as the shader code can be shared.
// uncommenting this will cause the project to have non deterministic materials and will hurt patch sizes
//ShaderOutput.ShaderCode.AddOptionalData('n', TCHAR_TO_UTF8(*ShaderInput.GenerateShaderName()));
ShaderOutput.NumInstructions = 0;
ShaderOutput.NumTextureSamplers = Header.Bindings.NumSamplers;
}
}
void FOpenGLFrontend::ConvertOpenGLVersionFromGLSLVersion(GLSLVersion InVersion, int& OutMajorVersion, int& OutMinorVersion)
{
switch(InVersion)
{
case GLSL_150:
OutMajorVersion = 3;
OutMinorVersion = 2;
break;
case GLSL_310_ES_EXT:
case GLSL_430:
OutMajorVersion = 4;
OutMinorVersion = 3;
break;
case GLSL_150_ES2:
case GLSL_150_ES2_NOUB:
case GLSL_150_ES3_1:
OutMajorVersion = 3;
OutMinorVersion = 2;
break;
case GLSL_ES2_IOS:
case GLSL_ES2_WEBGL:
case GLSL_ES2:
case GLSL_ES3_1_ANDROID:
OutMajorVersion = 0;
OutMinorVersion = 0;
break;
default:
// Invalid enum
check(0);
OutMajorVersion = 0;
OutMinorVersion = 0;
break;
}
}
static const TCHAR* GetGLSLES2CompilerExecutable(bool bNDACompiler)
{
// Unfortunately no env var is set to handle install path
return (bNDACompiler
? TEXT("C:\\Imagination\\PowerVR\\GraphicsSDK\\Compilers\\OGLES\\Windows_x86_32\\glslcompiler_sgx543_nda.exe")
: TEXT("C:\\Imagination\\PowerVR\\GraphicsSDK\\Compilers\\OGLES\\Windows_x86_32\\glslcompiler_sgx543.exe"));
}
static FString CreateGLSLES2CompilerArguments(const FString& ShaderFile, const FString& OutputFile, EHlslShaderFrequency Frequency, bool bNDACompiler)
{
const TCHAR* FrequencySwitch = TEXT("");
switch (Frequency)
{
case HSF_PixelShader:
FrequencySwitch = TEXT(" -f");
break;
case HSF_VertexShader:
FrequencySwitch = TEXT(" -v");
break;
default:
return TEXT("");
}
FString Arguments = FString::Printf(TEXT("%s %s %s -profile -perfsim"), *FPaths::GetCleanFilename(ShaderFile), *FPaths::GetCleanFilename(OutputFile), FrequencySwitch);
if (bNDACompiler)
{
Arguments += " -disasm";
}
return Arguments;
}
static FString CreateCommandLineGLSLES2(const FString& ShaderFile, const FString& OutputFile, GLSLVersion Version, EHlslShaderFrequency Frequency, bool bNDACompiler)
{
if (Version != GLSL_ES2 && Version != GLSL_ES2_WEBGL && Version != GLSL_ES2_IOS)
{
return TEXT("");
}
FString CmdLine = FString(GetGLSLES2CompilerExecutable(bNDACompiler)) + TEXT(" ") + CreateGLSLES2CompilerArguments(ShaderFile, OutputFile, Frequency, bNDACompiler);
CmdLine += FString(LINE_TERMINATOR) + TEXT("pause");
return CmdLine;
}
/** Precompile a glsl shader for ES2. */
void FOpenGLFrontend::PrecompileGLSLES2(FShaderCompilerOutput& ShaderOutput, const FShaderCompilerInput& ShaderInput, const ANSICHAR* ShaderSource, EHlslShaderFrequency Frequency)
{
const TCHAR* CompilerExecutableName = GetGLSLES2CompilerExecutable(false);
const int32 SourceLen = FCStringAnsi::Strlen(ShaderSource);
const bool bCompilerExecutableExists = FPaths::FileExists(CompilerExecutableName);
// Using the debug info path to write out the files to disk for the PVR shader compiler
if (ShaderInput.DumpDebugInfoPath != TEXT("") && bCompilerExecutableExists)
{
const FString GLSLSourceFile = (ShaderInput.DumpDebugInfoPath / TEXT("GLSLSource.txt"));
bool bSavedSuccessfully = false;
{
FArchive* Ar = IFileManager::Get().CreateFileWriter(*GLSLSourceFile, FILEWRITE_EvenIfReadOnly);
// Save the ansi file to disk so it can be used as input to the PVR shader compiler
if (Ar)
{
bSavedSuccessfully = true;
// @todo: Patch the code so that textureCubeLodEXT gets converted to textureCubeLod to workaround PowerVR issues
const ANSICHAR* VersionString = FCStringAnsi::Strifind(ShaderSource, "#version 100");
check(VersionString);
VersionString += 12; // strlen("# version 100");
Ar->Serialize((void*)ShaderSource, (VersionString - ShaderSource) * sizeof(ANSICHAR));
const char* PVRWorkaround = "\n#ifndef textureCubeLodEXT\n#define textureCubeLodEXT textureCubeLod\n#endif\n";
Ar->Serialize((void*)PVRWorkaround, FCStringAnsi::Strlen(PVRWorkaround));
Ar->Serialize((void*)VersionString, (SourceLen - (VersionString - ShaderSource)) * sizeof(ANSICHAR));
delete Ar;
}
}
if (bSavedSuccessfully && ENABLE_IMAGINATION_COMPILER)
{
const FString Arguments = CreateGLSLES2CompilerArguments(GLSLSourceFile, TEXT("ASM.txt"), Frequency, false);
FString StdOut;
FString StdErr;
int32 ReturnCode = 0;
// Run the PowerVR shader compiler and wait for completion
FPlatformProcess::ExecProcess(GetGLSLES2CompilerExecutable(false), *Arguments, &ReturnCode, &StdOut, &StdErr);
if (ReturnCode >= 0)
{
ShaderOutput.bSucceeded = true;
ShaderOutput.Target = ShaderInput.Target;
BuildShaderOutput(ShaderOutput, ShaderInput, ShaderSource, SourceLen, GLSL_ES2);
// Parse the cycle count
const int32 CycleCountStringLength = FPlatformString::Strlen(TEXT("Cycle count: "));
const int32 CycleCountIndex = StdOut.Find(TEXT("Cycle count: "));
if (CycleCountIndex != INDEX_NONE && CycleCountIndex + CycleCountStringLength < StdOut.Len())
{
const int32 CycleCountEndIndex = StdOut.Find(TEXT("\n"), ESearchCase::IgnoreCase, ESearchDir::FromStart, CycleCountIndex + CycleCountStringLength);
if (CycleCountEndIndex != INDEX_NONE)
{
const FString InstructionSubstring = StdOut.Mid(CycleCountIndex + CycleCountStringLength, CycleCountEndIndex - (CycleCountIndex + CycleCountStringLength));
ShaderOutput.NumInstructions = FCString::Atoi(*InstructionSubstring);
}
}
}
else
{
ShaderOutput.bSucceeded = false;
FShaderCompilerError* NewError = new(ShaderOutput.Errors) FShaderCompilerError();
// Print the name of the generated glsl file so we can open it with a double click in the VS.Net output window
NewError->StrippedErrorMessage = FString::Printf(TEXT("%s \nPVR SDK glsl compiler for SGX543: %s"), *GLSLSourceFile, *StdOut);
}
}
else
{
ShaderOutput.bSucceeded = true;
ShaderOutput.Target = ShaderInput.Target;
BuildShaderOutput(ShaderOutput, ShaderInput, ShaderSource, SourceLen, GLSL_ES2);
}
}
else
{
ShaderOutput.bSucceeded = true;
ShaderOutput.Target = ShaderInput.Target;
BuildShaderOutput(ShaderOutput, ShaderInput, ShaderSource, SourceLen, GLSL_ES2);
}
}
/**
* Precompile a GLSL shader.
* @param ShaderOutput - The precompiled shader.
* @param ShaderInput - The shader input.
* @param InPreprocessedShader - The preprocessed source code.
*/
void FOpenGLFrontend::PrecompileShader(FShaderCompilerOutput& ShaderOutput, const FShaderCompilerInput& ShaderInput, const ANSICHAR* ShaderSource, GLSLVersion Version, EHlslShaderFrequency Frequency)
{
check(ShaderInput.Target.Frequency < SF_NumFrequencies);
// Lookup the GL shader type.
GLenum GLFrequency = GLFrequencyTable[ShaderInput.Target.Frequency];
if (GLFrequency == GL_NONE)
{
ShaderOutput.bSucceeded = false;
FShaderCompilerError* NewError = new(ShaderOutput.Errors) FShaderCompilerError();
NewError->StrippedErrorMessage = FString::Printf(TEXT("%s shaders not supported for use in OpenGL."), CrossCompiler::GetFrequencyName((EShaderFrequency)ShaderInput.Target.Frequency));
return;
}
if (Version == GLSL_ES2 || Version == GLSL_ES2_WEBGL || Version == GLSL_ES2_IOS)
{
PrecompileGLSLES2(ShaderOutput, ShaderInput, ShaderSource, Frequency);
}
else
{
// Create the shader with the preprocessed source code.
void* ContextPtr;
void* PrevContextPtr;
int MajorVersion = 0;
int MinorVersion = 0;
ConvertOpenGLVersionFromGLSLVersion(Version, MajorVersion, MinorVersion);
PlatformInitOpenGL(ContextPtr, PrevContextPtr, MajorVersion, MinorVersion);
GLint SourceLen = FCStringAnsi::Strlen(ShaderSource);
GLuint Shader = glCreateShader(GLFrequency);
{
const GLchar* SourcePtr = ShaderSource;
glShaderSource(Shader, 1, &SourcePtr, &SourceLen);
}
// Compile and get results.
glCompileShader(Shader);
{
GLint CompileStatus;
glGetShaderiv(Shader, GL_COMPILE_STATUS, &CompileStatus);
if (CompileStatus == GL_TRUE)
{
ShaderOutput.Target = ShaderInput.Target;
BuildShaderOutput(
ShaderOutput,
ShaderInput,
ShaderSource,
(int32)SourceLen,
Version
);
}
else
{
GLint LogLength;
glGetShaderiv(Shader, GL_INFO_LOG_LENGTH, &LogLength);
if (LogLength > 1)
{
TArray<ANSICHAR> RawCompileLog;
FString CompileLog;
TArray<FString> LogLines;
RawCompileLog.Empty(LogLength);
RawCompileLog.AddZeroed(LogLength);
glGetShaderInfoLog(Shader, LogLength, /*OutLength=*/ NULL, RawCompileLog.GetData());
CompileLog = ANSI_TO_TCHAR(RawCompileLog.GetData());
CompileLog.ParseIntoArray(LogLines, TEXT("\n"), true);
for (int32 Line = 0; Line < LogLines.Num(); ++Line)
{
ParseGlslError(ShaderOutput.Errors, LogLines[Line]);
}
if (ShaderOutput.Errors.Num() == 0)
{
FShaderCompilerError* NewError = new(ShaderOutput.Errors) FShaderCompilerError();
NewError->StrippedErrorMessage = FString::Printf(
TEXT("GLSL source:\n%sGL compile log: %s\n"),
ANSI_TO_TCHAR(ShaderSource),
ANSI_TO_TCHAR(RawCompileLog.GetData())
);
}
}
else
{
FShaderCompilerError* NewError = new(ShaderOutput.Errors) FShaderCompilerError();
NewError->StrippedErrorMessage = TEXT("Shader compile failed without errors.");
}
ShaderOutput.bSucceeded = false;
}
}
glDeleteShader(Shader);
PlatformReleaseOpenGL(ContextPtr, PrevContextPtr);
}
}
void FOpenGLFrontend::SetupPerVersionCompilationEnvironment(GLSLVersion Version, FShaderCompilerDefinitions& AdditionalDefines, EHlslCompileTarget& HlslCompilerTarget)
{
switch (Version)
{
case GLSL_ES3_1_ANDROID:
AdditionalDefines.SetDefine(TEXT("COMPILER_GLSL_ES3_1"), 1);
AdditionalDefines.SetDefine(TEXT("ES3_1_PROFILE"), 1);
HlslCompilerTarget = HCT_FeatureLevelES3_1;
break;
case GLSL_310_ES_EXT:
AdditionalDefines.SetDefine(TEXT("COMPILER_GLSL"), 1);
AdditionalDefines.SetDefine(TEXT("COMPILER_GLSL_ES3_1_EXT"), 1);
AdditionalDefines.SetDefine(TEXT("ESDEFERRED_PROFILE"), 1);
AdditionalDefines.SetDefine(TEXT("GL4_PROFILE"), 1);
HlslCompilerTarget = HCT_FeatureLevelES3_1Ext;
break;
case GLSL_430:
AdditionalDefines.SetDefine(TEXT("COMPILER_GLSL"), 1);
AdditionalDefines.SetDefine(TEXT("GL4_PROFILE"), 1);
HlslCompilerTarget = HCT_FeatureLevelSM5;
break;
case GLSL_150:
AdditionalDefines.SetDefine(TEXT("COMPILER_GLSL"), 1);
AdditionalDefines.SetDefine(TEXT("GL3_PROFILE"), 1);
HlslCompilerTarget = HCT_FeatureLevelSM4;
break;
case GLSL_ES2_WEBGL:
AdditionalDefines.SetDefine(TEXT("WEBGL"), 1);
AdditionalDefines.SetDefine(TEXT("COMPILER_GLSL_ES2"), 1);
AdditionalDefines.SetDefine(TEXT("ES2_PROFILE"), 1);
HlslCompilerTarget = HCT_FeatureLevelES2;
AdditionalDefines.SetDefine(TEXT("row_major"), TEXT(""));
break;
case GLSL_ES2_IOS:
AdditionalDefines.SetDefine(TEXT("IOS"), 1);
AdditionalDefines.SetDefine(TEXT("COMPILER_GLSL_ES2"), 1);
AdditionalDefines.SetDefine(TEXT("ES2_PROFILE"), 1);
HlslCompilerTarget = HCT_FeatureLevelES2;
AdditionalDefines.SetDefine(TEXT("row_major"), TEXT(""));
AdditionalDefines.SetDefine(TEXT("noperspective"), TEXT(""));
break;
case GLSL_ES2:
AdditionalDefines.SetDefine(TEXT("COMPILER_GLSL_ES2"), 1);
AdditionalDefines.SetDefine(TEXT("ES2_PROFILE"), 1);
HlslCompilerTarget = HCT_FeatureLevelES2;
AdditionalDefines.SetDefine(TEXT("row_major"), TEXT(""));
break;
case GLSL_150_ES2:
case GLSL_150_ES2_NOUB:
AdditionalDefines.SetDefine(TEXT("COMPILER_GLSL"), 1);
AdditionalDefines.SetDefine(TEXT("ES2_PROFILE"), 1);
HlslCompilerTarget = HCT_FeatureLevelSM4;
AdditionalDefines.SetDefine(TEXT("row_major"), TEXT(""));
break;
case GLSL_150_ES3_1:
AdditionalDefines.SetDefine(TEXT("COMPILER_GLSL"), 1);
AdditionalDefines.SetDefine(TEXT("ES3_1_PROFILE"), 1);
HlslCompilerTarget = HCT_FeatureLevelSM4;
AdditionalDefines.SetDefine(TEXT("row_major"), TEXT(""));
break;
default:
check(0);
}
}
uint32 FOpenGLFrontend::GetMaxSamplers(GLSLVersion Version)
{
switch (Version)
{
// Assume that GL4.3 targets support 32 samplers as we don't currently support separate sampler objects
case GLSL_430:
return 32;
// mimicing the old GetFeatureLevelMaxTextureSamplers for the rest
case GLSL_ES2:
case GLSL_ES2_IOS:
case GLSL_150_ES2:
case GLSL_150_ES2_NOUB:
return 8;
case GLSL_ES2_WEBGL:
// For WebGL 1 and 2, GL_MAX_TEXTURE_IMAGE_UNITS is generally much higher than on old GLES 2 Android
// devices, but we only know the limit at runtime. Assume a decent desktop default.
return 32;
default:
return 16;
}
}
uint32 FOpenGLFrontend::CalculateCrossCompilerFlags(GLSLVersion Version, bool bCompileES2With310, bool bUseFullPrecisionInPS, bool bUsesExternalTexture)
{
uint32 CCFlags = HLSLCC_NoPreprocess | HLSLCC_PackUniforms | HLSLCC_DX11ClipSpace;
if (IsES2Platform(Version) && !IsPCES2Platform(Version))
{
CCFlags |= HLSLCC_FlattenUniformBuffers | HLSLCC_FlattenUniformBufferStructures;
// Currently only enabled for ES2, as there are still features to implement for SM4+ (atomics, global store, UAVs, etc)
CCFlags |= HLSLCC_ApplyCommonSubexpressionElimination;
}
if (bUseFullPrecisionInPS)
{
CCFlags |= HLSLCC_UseFullPrecisionInPS;
}
if (bCompileES2With310)
{
CCFlags |= HLSLCC_FlattenUniformBuffers | HLSLCC_FlattenUniformBufferStructures;
}
if (Version == GLSL_150_ES2_NOUB)
{
CCFlags |= HLSLCC_FlattenUniformBuffers | HLSLCC_FlattenUniformBufferStructures;
}
if (SupportsSeparateShaderObjects(Version))
{
CCFlags |= HLSLCC_SeparateShaderObjects;
}
if (bUsesExternalTexture)
{
CCFlags |= HLSLCC_UsesExternalTexture;
}
return CCFlags;
}
FGlslCodeBackend* FOpenGLFrontend::CreateBackend(GLSLVersion Version, uint32 CCFlags, EHlslCompileTarget HlslCompilerTarget)
{
return new FGlslCodeBackend(CCFlags, HlslCompilerTarget);
}
FGlslLanguageSpec* FOpenGLFrontend::CreateLanguageSpec(GLSLVersion Version)
{
#if PLATFORM_HTML5
// For backwards compatibility when targeting WebGL 2 shaders,
// generate GLES2/WebGL 1 style shaders but with GLES3/WebGL 2
// constructs available.
return new FGlslLanguageSpec(true);
#else
return new FGlslLanguageSpec(IsES2Platform(Version) && !IsPCES2Platform(Version));
#endif
}
/**
* Compile a shader for OpenGL on Windows.
* @param Input - The input shader code and environment.
* @param Output - Contains shader compilation results upon return.
*/
void FOpenGLFrontend::CompileShader(const FShaderCompilerInput& Input,FShaderCompilerOutput& Output,const FString& WorkingDirectory, GLSLVersion Version)
{
FString PreprocessedShader;
FShaderCompilerDefinitions AdditionalDefines;
EHlslCompileTarget HlslCompilerTarget = HCT_InvalidTarget;
ECompilerFlags PlatformFlowControl = CFLAG_AvoidFlowControl;
const bool bCompileES2With310 = (Version == GLSL_ES2 && Input.Environment.CompilerFlags.Contains(CFLAG_FeatureLevelES31));
if (bCompileES2With310)
{
Version = GLSL_310_ES_EXT;
}
// set up compiler env based on version
SetupPerVersionCompilationEnvironment(Version, AdditionalDefines, HlslCompilerTarget);
AdditionalDefines.SetDefine(TEXT("COMPILER_HLSLCC"), 1);
const bool bDumpDebugInfo = (Input.DumpDebugInfoPath != TEXT("") && IFileManager::Get().DirectoryExists(*Input.DumpDebugInfoPath));
if(Input.Environment.CompilerFlags.Contains(CFLAG_AvoidFlowControl) || PlatformFlowControl == CFLAG_AvoidFlowControl)
{
AdditionalDefines.SetDefine(TEXT("COMPILER_SUPPORTS_ATTRIBUTES"), (uint32)1);
}
else
{
AdditionalDefines.SetDefine(TEXT("COMPILER_SUPPORTS_ATTRIBUTES"), (uint32)0);
}
const bool bUsesExternalTexture = Input.Environment.CompilerFlags.Contains(CFLAG_UsesExternalTexture);
const bool bUseFullPrecisionInPS = Input.Environment.CompilerFlags.Contains(CFLAG_UseFullPrecisionInPS);
if (bUseFullPrecisionInPS)
{
AdditionalDefines.SetDefine(TEXT("FORCE_FLOATS"), (uint32)1);
}
if (Input.bSkipPreprocessedCache)
{
if (!FFileHelper::LoadFileToString(PreprocessedShader, *Input.VirtualSourceFilePath))
{
return;
}
// Remove const as we are on debug-only mode
CrossCompiler::CreateEnvironmentFromResourceTable(PreprocessedShader, (FShaderCompilerEnvironment&)Input.Environment);
}
else
{
if (!PreprocessShader(PreprocessedShader, Output, Input, AdditionalDefines))
{
// The preprocessing stage will add any relevant errors.
return;
}
}
char* GlslShaderSource = NULL;
char* ErrorLog = NULL;
const bool bIsSM5 = IsSM5(Version);
const EHlslShaderFrequency FrequencyTable[] =
{
HSF_VertexShader,
bIsSM5 ? HSF_HullShader : HSF_InvalidFrequency,
bIsSM5 ? HSF_DomainShader : HSF_InvalidFrequency,
HSF_PixelShader,
IsES2Platform(Version) ? HSF_InvalidFrequency : HSF_GeometryShader,
bIsSM5 ? HSF_ComputeShader : HSF_InvalidFrequency
};
const EHlslShaderFrequency Frequency = FrequencyTable[Input.Target.Frequency];
if (Frequency == HSF_InvalidFrequency)
{
Output.bSucceeded = false;
FShaderCompilerError* NewError = new(Output.Errors) FShaderCompilerError();
NewError->StrippedErrorMessage = FString::Printf(
TEXT("%s shaders not supported for use in OpenGL."),
CrossCompiler::GetFrequencyName((EShaderFrequency)Input.Target.Frequency)
);
return;
}
// This requires removing the HLSLCC_NoPreprocess flag later on!
if (!RemoveUniformBuffersFromSource(PreprocessedShader))
{
return;
}
// Write out the preprocessed file and a batch file to compile it if requested (DumpDebugInfoPath is valid)
if (bDumpDebugInfo)
{
FArchive* FileWriter = IFileManager::Get().CreateFileWriter(*(Input.DumpDebugInfoPath / Input.GetSourceFilename()));
if (FileWriter)
{
auto AnsiSourceFile = StringCast<ANSICHAR>(*PreprocessedShader);
FileWriter->Serialize((ANSICHAR*)AnsiSourceFile.Get(), AnsiSourceFile.Length());
{
FString Line = CrossCompiler::CreateResourceTableFromEnvironment(Input.Environment);
FileWriter->Serialize(TCHAR_TO_ANSI(*Line), Line.Len());
}
FileWriter->Close();
delete FileWriter;
}
if (Input.bGenerateDirectCompileFile)
{
FFileHelper::SaveStringToFile(CreateShaderCompilerWorkerDirectCommandLine(Input), *(Input.DumpDebugInfoPath / TEXT("DirectCompile.txt")));
}
}
uint32 CCFlags = CalculateCrossCompilerFlags(Version, bCompileES2With310, bUseFullPrecisionInPS, bUsesExternalTexture);
// Required as we added the RemoveUniformBuffersFromSource() function (the cross-compiler won't be able to interpret comments w/o a preprocessor)
CCFlags &= ~HLSLCC_NoPreprocess;
FGlslCodeBackend* BackEnd = CreateBackend(Version, CCFlags, HlslCompilerTarget);
FGlslLanguageSpec* LanguageSpec = CreateLanguageSpec(Version);
int32 Result = 0;
FHlslCrossCompilerContext CrossCompilerContext(CCFlags, Frequency, HlslCompilerTarget);
if (CrossCompilerContext.Init(TCHAR_TO_ANSI(*Input.VirtualSourceFilePath), LanguageSpec))
{
Result = CrossCompilerContext.Run(
TCHAR_TO_ANSI(*PreprocessedShader),
TCHAR_TO_ANSI(*Input.EntryPointName),
BackEnd,
&GlslShaderSource,
&ErrorLog
) ? 1 : 0;
}
delete BackEnd;
delete LanguageSpec;
if (Result != 0)
{
int32 GlslSourceLen = GlslShaderSource ? FCStringAnsi::Strlen(GlslShaderSource) : 0;
if (bDumpDebugInfo)
{
const FString GLSLFile = (Input.DumpDebugInfoPath / TEXT("Output.glsl"));
const FString GLBatchFileContents = CreateCommandLineGLSLES2(GLSLFile, (Input.DumpDebugInfoPath / TEXT("Output.asm")), Version, Frequency, false);
if (!GLBatchFileContents.IsEmpty())
{
FFileHelper::SaveStringToFile(GLBatchFileContents, *(Input.DumpDebugInfoPath / TEXT("GLSLCompile.bat")));
}
const FString NDABatchFileContents = CreateCommandLineGLSLES2(GLSLFile, (Input.DumpDebugInfoPath / TEXT("Output.asm")), Version, Frequency, true);
if (!NDABatchFileContents.IsEmpty())
{
FFileHelper::SaveStringToFile(NDABatchFileContents, *(Input.DumpDebugInfoPath / TEXT("NDAGLSLCompile.bat")));
}
if (GlslSourceLen > 0)
{
uint32 Len = FCStringAnsi::Strlen(TCHAR_TO_ANSI(*Input.VirtualSourceFilePath)) + FCStringAnsi::Strlen(TCHAR_TO_ANSI(*Input.EntryPointName)) + FCStringAnsi::Strlen(GlslShaderSource) + 20;
char* Dest = (char*)malloc(Len);
FCStringAnsi::Snprintf(Dest, Len, "// ! %s:%s\n%s", (const char*)TCHAR_TO_ANSI(*Input.VirtualSourceFilePath), (const char*)TCHAR_TO_ANSI(*Input.EntryPointName), (const char*)GlslShaderSource);
free(GlslShaderSource);
GlslShaderSource = Dest;
GlslSourceLen = FCStringAnsi::Strlen(GlslShaderSource);
FArchive* FileWriter = IFileManager::Get().CreateFileWriter(*(Input.DumpDebugInfoPath / Input.VirtualSourceFilePath + TEXT(".glsl")));
if (FileWriter)
{
FileWriter->Serialize(GlslShaderSource,GlslSourceLen+1);
FileWriter->Close();
delete FileWriter;
}
}
}
#if VALIDATE_GLSL_WITH_DRIVER
PrecompileShader(Output, Input, GlslShaderSource, Version, Frequency);
#else // VALIDATE_GLSL_WITH_DRIVER
int32 SourceLen = FCStringAnsi::Strlen(GlslShaderSource);
Output.Target = Input.Target;
BuildShaderOutput(Output, Input, GlslShaderSource, SourceLen, Version);
#endif // VALIDATE_GLSL_WITH_DRIVER
}
else
{
if (bDumpDebugInfo)
{
// Generate the batch file to help track down cross-compiler issues if necessary
const FString GLSLFile = (Input.DumpDebugInfoPath / TEXT("Output.glsl"));
const FString GLBatchFileContents = CreateCommandLineGLSLES2(GLSLFile, (Input.DumpDebugInfoPath / TEXT("Output.asm")), Version, Frequency, false);
if (!GLBatchFileContents.IsEmpty())
{
FFileHelper::SaveStringToFile(GLBatchFileContents, *(Input.DumpDebugInfoPath / TEXT("GLSLCompile.bat")));
}
}
FString Tmp = ANSI_TO_TCHAR(ErrorLog);
TArray<FString> ErrorLines;
Tmp.ParseIntoArray(ErrorLines, TEXT("\n"), true);
for (int32 LineIndex = 0; LineIndex < ErrorLines.Num(); ++LineIndex)
{
const FString& Line = ErrorLines[LineIndex];
CrossCompiler::ParseHlslccError(Output.Errors, Line);
}
}
if (GlslShaderSource)
{
free(GlslShaderSource);
}
if (ErrorLog)
{
free(ErrorLog);
}
}
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