llvm-mirror/lib/ExecutionEngine/Orc/CMakeLists.txt

add_llvm_library(LLVMOrcJIT
  CompileOnDemandLayer.cpp
  CompileUtils.cpp
  Core.cpp
  DebugUtils.cpp
  ExecutionUtils.cpp
  IndirectionUtils.cpp
  IRCompileLayer.cpp
  IRTransformLayer.cpp
  JITTargetMachineBuilder.cpp
  LazyReexports.cpp
  Legacy.cpp
  Layer.cpp
  LLJIT.cpp
  NullResolver.cpp
  ObjectLinkingLayer.cpp
  ObjectTransformLayer.cpp
  OrcABISupport.cpp
  OrcCBindings.cpp
  OrcMCJITReplacement.cpp
  RTDyldObjectLinkingLayer.cpp
  ThreadSafeModule.cpp
  Speculation.cpp
  SpeculateAnalyses.cpp
  ADDITIONAL_HEADER_DIRS
  ${LLVM_MAIN_INCLUDE_DIR}/llvm/ExecutionEngine/Orc

  DEPENDS
  intrinsics_gen
  )

target_link_libraries(LLVMOrcJIT
  PRIVATE
  LLVMAnalysis
  LLVMBitReader
  LLVMBitWriter
  LLVMPasses
  )
Fix line endings (NFC) I inadvertently checked these in with Windows-style line endings in r240288. llvm-svn: 240340 2015-06-22 23:37:34 +02:00			`add_llvm_library(LLVMOrcJIT`
[ORC] Add an initial implementation of a replacement CompileOnDemandLayer. CompileOnDemandLayer2 is a replacement for CompileOnDemandLayer built on the ORC Core APIs. Functions in added modules are extracted and compiled lazily. CompileOnDemandLayer2 supports multithreaded JIT'd code, and compilation on multiple threads. llvm-svn: 334967 2018-06-18 20:01:43 +02:00			`CompileOnDemandLayer.cpp`
[ORC] Move SimpleCompiler/ConcurrentIRCompiler definitions into a .cpp file. SimpleCompiler is no longer templated, so there's no reason for this code to be in a header any more. llvm-svn: 359626 2019-05-01 00:42:01 +02:00			`CompileUtils.cpp`
[ORC] Re-apply r321838 again with a workaround for a bug present in the libcxx version being used on some of the green dragon builders (plus a clang-format). Workaround: AsynchronousSymbolQuery and VSO want to work with JITEvaluatedSymbols anyway, so just use them (instead of JITSymbol, which happens to tickle the bug). The libcxx bug being worked around was fixed in r276003, and there are plans to update the offending builders. llvm-svn: 322140 2018-01-10 01:09:38 +01:00			`Core.cpp`
[ORC] Add a utility to support dumping JIT'd objects to disk for debugging. Adds a DumpObjects utility that can be used to dump JIT'd objects to disk. Instances of DebugObjects may be used by ObjectTransformLayer as no-op transforms. This patch also adds an ObjectTransformLayer to LLJIT and an example of how to use this utility to dump JIT'd objects in LLJIT. 2019-11-15 00:58:21 +01:00			`DebugUtils.cpp`
Fix line endings (NFC) I inadvertently checked these in with Windows-style line endings in r240288. llvm-svn: 240340 2015-06-22 23:37:34 +02:00			`ExecutionUtils.cpp`
			`IndirectionUtils.cpp`
[LKH] Add a new IRCompileLayer. llvm-svn: 333127 2018-05-23 23:27:01 +02:00			`IRCompileLayer.cpp`
[LKH] Add a new IRTransformLayer. llvm-svn: 333129 2018-05-23 23:27:07 +02:00			`IRTransformLayer.cpp`
[ORC] Extract and tidy up JITTargetMachineBuilder, add unit test. (1) Adds comments for the API. (2) Removes the setArch method: This is redundant: the setArchStr method on the triple should be used instead. (3) Turns EmulatedTLS on by default. This matches EngineBuilder's behavior. llvm-svn: 343423 2018-09-30 21:12:23 +02:00			`JITTargetMachineBuilder.cpp`
[ORC] Add a "lazy call-through" utility based on the same underlying trampoline implementation as lazy compile callbacks, and a "lazy re-exports" utility that builds lazy call-throughs. Lazy call-throughs are similar to lazy compile callbacks (and are based on the same underlying state saving/restoring trampolines) but resolve their targets by performing a standard ORC lookup rather than invoking a user supplied compiler callback. This allows them to inherit the thread-safety of ORC lookups while blocking only the calling thread (whereas compile callbacks also block one compile thread). Lazy re-exports provide a simple way of building lazy call-throughs. Unlike a regular re-export, a lazy re-export generates a new address (a stub entry point) that will act like the re-exported symbol when called. The first call via a lazy re-export will trigger compilation of the re-exported symbol before calling through to it. llvm-svn: 343061 2018-09-26 06:18:30 +02:00			`LazyReexports.cpp`
[ORC] Add orc::SymbolResolver, a Orc/Legacy API interop header, and an orc::SymbolResolver to JITSymbolResolver adapter. The new orc::SymbolResolver interface uses asynchronous queries for better performance. (Asynchronous queries with bulk lookup minimize RPC/IPC overhead, support parallel incoming queries, and expose more available work for distribution). Existing ORC layers will soon be updated to use the orc::SymbolResolver API rather than the legacy llvm::JITSymbolResolver API. Because RuntimeDyld still uses JITSymbolResolver, this patch also includes an adapter that wraps an orc::SymbolResolver with a JITSymbolResolver API. llvm-svn: 323073 2018-01-22 04:00:31 +01:00			`Legacy.cpp`
[ORC] Add IRLayer and ObjectLayer interfaces and related MaterializationUnits. llvm-svn: 332896 2018-05-21 23:11:13 +02:00			`Layer.cpp`
[ORC] Add LLJIT and LLLazyJIT, and replace OrcLazyJIT in LLI with LLLazyJIT. LLJIT is a prefabricated ORC based JIT class that is meant to be the go-to replacement for MCJIT. Unlike OrcMCJITReplacement (which will continue to be supported) it is not API or bug-for-bug compatible, but targets the same use cases: Simple, non-lazy compilation and execution of LLVM IR. LLLazyJIT extends LLJIT with support for function-at-a-time lazy compilation, similar to what was provided by LLVM's original (now long deprecated) JIT APIs. This commit also contains some simple utility classes (CtorDtorRunner2, LocalCXXRuntimeOverrides2, JITTargetMachineBuilder) to support LLJIT and LLLazyJIT. Both of these classes are works in progress. Feedback from JIT clients is very welcome! llvm-svn: 335670 2018-06-26 23:35:48 +02:00			`LLJIT.cpp`
Fix line endings (NFC) I inadvertently checked these in with Windows-style line endings in r240288. llvm-svn: 240340 2015-06-22 23:37:34 +02:00			`NullResolver.cpp`
Initial implementation of JITLink - A replacement for RuntimeDyld. Summary: JITLink is a jit-linker that performs the same high-level task as RuntimeDyld: it parses relocatable object files and makes their contents runnable in a target process. JITLink aims to improve on RuntimeDyld in several ways: (1) A clear design intended to maximize code-sharing while minimizing coupling. RuntimeDyld has been developed in an ad-hoc fashion for a number of years and this had led to intermingling of code for multiple architectures (e.g. in RuntimeDyldELF::processRelocationRef) in a way that makes the code more difficult to read, reason about, extend. JITLink is designed to isolate format and architecture specific code, while still sharing generic code. (2) Support for native code models. RuntimeDyld required the use of large code models (where calls to external functions are made indirectly via registers) for many of platforms due to its restrictive model for stub generation (one "stub" per symbol). JITLink allows arbitrary mutation of the atom graph, allowing both GOT and PLT atoms to be added naturally. (3) Native support for asynchronous linking. JITLink uses asynchronous calls for symbol resolution and finalization: these callbacks are passed a continuation function that they must call to complete the linker's work. This allows for cleaner interoperation with the new concurrent ORC JIT APIs, while still being easily implementable in synchronous style if asynchrony is not needed. To maximise sharing, the design has a hierarchy of common code: (1) Generic atom-graph data structure and algorithms (e.g. dead stripping and \| memory allocation) that are intended to be shared by all architectures. \| + -- (2) Shared per-format code that utilizes (1), e.g. Generic MachO to \| atom-graph parsing. \| + -- (3) Architecture specific code that uses (1) and (2). E.g. JITLinkerMachO_x86_64, which adds x86-64 specific relocation support to (2) to build and patch up the atom graph. To support asynchronous symbol resolution and finalization, the callbacks for these operations take continuations as arguments: using JITLinkAsyncLookupContinuation = std::function<void(Expected<AsyncLookupResult> LR)>; using JITLinkAsyncLookupFunction = std::function<void(const DenseSet<StringRef> &Symbols, JITLinkAsyncLookupContinuation LookupContinuation)>; using FinalizeContinuation = std::function<void(Error)>; virtual void finalizeAsync(FinalizeContinuation OnFinalize); In addition to its headline features, JITLink also makes other improvements: - Dead stripping support: symbols that are not used (e.g. redundant ODR definitions) are discarded, and take up no memory in the target process (In contrast, RuntimeDyld supported pointer equality for weak definitions, but the redundant definitions stayed resident in memory). - Improved exception handling support. JITLink provides a much more extensive eh-frame parser than RuntimeDyld, and is able to correctly fix up many eh-frame sections that RuntimeDyld currently (silently) fails on. - More extensive validation and error handling throughout. This initial patch supports linking MachO/x86-64 only. Work on support for other architectures and formats will happen in-tree. Differential Revision: https://reviews.llvm.org/D58704 llvm-svn: 358818 2019-04-20 19:10:34 +02:00			`ObjectLinkingLayer.cpp`
[LKH] Add ObjectTransformLayer2. llvm-svn: 333128 2018-05-23 23:27:06 +02:00			`ObjectTransformLayer.cpp`
[Orc] Rename OrcArchitectureSupport to OrcABISupport and add Win32 ABI support. This enables lazy JITing on Windows x86-64. Patch by David. Thanks David! llvm-svn: 268845 2016-05-07 05:36:38 +02:00			`OrcABISupport.cpp`
[Orc] Re-add C bindings for the Orc APIs, with a fix to remove the union that was causing builder failures. The bindings were originally added in r251472, and reverted in r251473 due to the builder failures. llvm-svn: 251482 2015-10-28 03:40:04 +01:00			`OrcCBindings.cpp`
Fix line endings (NFC) I inadvertently checked these in with Windows-style line endings in r240288. llvm-svn: 240340 2015-06-22 23:37:34 +02:00			`OrcMCJITReplacement.cpp`
[LKH] Add a replacement RTDyldLayer. llvm-svn: 332918 2018-05-22 01:45:40 +02:00			`RTDyldObjectLinkingLayer.cpp`
[ORC] Add ThreadSafeModule and ThreadSafeContext wrappers to support concurrent compilation of IR in the JIT. ThreadSafeContext is a pair of an LLVMContext and a mutex that can be used to lock that context when it needs to be accessed from multiple threads. ThreadSafeModule is a pair of a unique_ptr<Module> and a shared_ptr<ThreadSafeContext>. This allows the lifetime of a ThreadSafeContext to be managed automatically in terms of the ThreadSafeModules that refer to it: Once all modules using a ThreadSafeContext are destructed, and providing the client has not held on to a copy of shared context pointer, the context will be automatically destructed. This scheme is necessary due to the following constraits: (1) We need multiple contexts for multithreaded compilation (at least one per compile thread plus one to store any IR not currently being compiled, though one context per module is simpler). (2) We need to free contexts that are no longer being used so that the JIT does not leak memory over time. (3) Module lifetimes are not predictable (modules are compiled as needed depending on the flow of JIT'd code) so there is no single point where contexts could be reclaimed. JIT clients not using concurrency can safely use one ThreadSafeContext for all ThreadSafeModules. JIT clients who want to be able to compile concurrently should use a different ThreadSafeContext for each module, or call setCloneToNewContextOnEmit on their top-level IRLayer. The former reduces compile latency (since no clone step is needed) at the cost of additional memory overhead for uncompiled modules (as every uncompiled module will duplicate the LLVM types, constants and metadata that have been shared). llvm-svn: 343055 2018-09-26 03:24:12 +02:00			`ThreadSafeModule.cpp`
Speculative Compilation [ORC] Remove Speculator Variants for Different Program Representations [ORC] Block Freq Analysis Speculative Compilation with Naive Block Frequency Add Applications to OrcSpeculation ORC v2 with Block Freq Query & Example Deleted BenchMark Programs Signed-off-by: preejackie <praveenvelliengiri@gmail.com> ORCv2 comments resolved [ORCV2] NFC ORCv2 NFC [ORCv2] Speculative compilation - CFGWalkQuery ORCv2 Adapting IRSpeculationLayer to new locking scheme llvm-svn: 367756 2019-08-03 16:42:13 +02:00			`Speculation.cpp`
			`SpeculateAnalyses.cpp`
Fix line endings (NFC) I inadvertently checked these in with Windows-style line endings in r240288. llvm-svn: 240340 2015-06-22 23:37:34 +02:00			`ADDITIONAL_HEADER_DIRS`
			`${LLVM_MAIN_INCLUDE_DIR}/llvm/ExecutionEngine/Orc`

			`DEPENDS`
			`intrinsics_gen`
			`)`
[ORC] Add BitReader/BitWriter to target_link_libraries Summary: CompileOnDemandLayer.cpp uses function in these libraries, and builds with `-DSHARED_LIB=ON` fail without this. Reviewers: lhames Subscribers: mgorny, llvm-commits Differential Revision: https://reviews.llvm.org/D48995 llvm-svn: 336389 2018-07-05 23:23:15 +02:00
			`target_link_libraries(LLVMOrcJIT`
			`PRIVATE`
Speculative Compilation [ORC] Remove Speculator Variants for Different Program Representations [ORC] Block Freq Analysis Speculative Compilation with Naive Block Frequency Add Applications to OrcSpeculation ORC v2 with Block Freq Query & Example Deleted BenchMark Programs Signed-off-by: preejackie <praveenvelliengiri@gmail.com> ORCv2 comments resolved [ORCV2] NFC ORCv2 NFC [ORCv2] Speculative compilation - CFGWalkQuery ORCv2 Adapting IRSpeculationLayer to new locking scheme llvm-svn: 367756 2019-08-03 16:42:13 +02:00			`LLVMAnalysis`
[ORC] Add BitReader/BitWriter to target_link_libraries Summary: CompileOnDemandLayer.cpp uses function in these libraries, and builds with `-DSHARED_LIB=ON` fail without this. Reviewers: lhames Subscribers: mgorny, llvm-commits Differential Revision: https://reviews.llvm.org/D48995 llvm-svn: 336389 2018-07-05 23:23:15 +02:00			`LLVMBitReader`
			`LLVMBitWriter`
[cmake] Link in LLVMPasses due to dependency by LLVMOrcJIT; NFC Summary: rL367756 (f5c40cb) increases the dependency of LLVMOrcJIT on LLVMPasses. In particular, symbols defined in LLVMPasses that are referenced by the destructor of `PassBuilder` are now referenced by LLVMOrcJIT through `Speculation.cpp.o`. We believe that referencing symbols defined in LLVMPasses in the destructor of `PassBuilder` is valid, and that adding to the set of such symbols is legitimate. To support such cases, this patch adds LLVMPasses to the set of libraries being linked when linking in LLVMOrcJIT causes such symbols from LLVMPasses to be referenced. Reviewers: Whitney, anhtuyen, pree-jackie Reviewed By: pree-jackie Subscribers: mgorny, llvm-commits Tags: #llvm Differential Revision: https://reviews.llvm.org/D66441 llvm-svn: 369310 2019-08-20 01:12:48 +02:00			`LLVMPasses`
[ORC] Add BitReader/BitWriter to target_link_libraries Summary: CompileOnDemandLayer.cpp uses function in these libraries, and builds with `-DSHARED_LIB=ON` fail without this. Reviewers: lhames Subscribers: mgorny, llvm-commits Differential Revision: https://reviews.llvm.org/D48995 llvm-svn: 336389 2018-07-05 23:23:15 +02:00			`)`