/*===---------------- llvm-c/Orc.h - OrcV2 C bindings -----------*- C++ -*-===*\ |* *| |* Part of the LLVM Project, under the Apache License v2.0 with LLVM *| |* Exceptions. *| |* See https://llvm.org/LICENSE.txt for license information. *| |* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception *| |* *| |*===----------------------------------------------------------------------===*| |* *| |* This header declares the C interface to libLLVMOrcJIT.a, which implements *| |* JIT compilation of LLVM IR. Minimal documentation of C API specific issues *| |* (especially memory ownership rules) is provided. Core Orc concepts are *| |* documented in llvm/docs/ORCv2.rst and APIs are documented in the C++ *| |* headers *| |* *| |* Many exotic languages can interoperate with C code but have a harder time *| |* with C++ due to name mangling. So in addition to C, this interface enables *| |* tools written in such languages. *| |* *| |* Note: This interface is experimental. It is *NOT* stable, and may be *| |* changed without warning. Only C API usage documentation is *| |* provided. See the C++ documentation for all higher level ORC API *| |* details. *| |* *| \*===----------------------------------------------------------------------===*/ #ifndef LLVM_C_ORC_H #define LLVM_C_ORC_H #include "llvm-c/Error.h" #include "llvm-c/TargetMachine.h" #include "llvm-c/Types.h" LLVM_C_EXTERN_C_BEGIN /** * Represents an address in the target process. */ typedef uint64_t LLVMOrcJITTargetAddress; /** * Represents generic linkage flags for a symbol definition. */ typedef enum { LLVMJITSymbolGenericFlagsExported = 1U << 0, LLVMJITSymbolGenericFlagsWeak = 1U << 1, LLVMJITSymbolGenericFlagsCallable = 1U << 2, LLVMJITSymbolGenericFlagsMaterializationSideEffectsOnly = 1U << 3 } LLVMJITSymbolGenericFlags; /** * Represents target specific flags for a symbol definition. */ typedef uint8_t LLVMJITSymbolTargetFlags; /** * Represents the linkage flags for a symbol definition. */ typedef struct { uint8_t GenericFlags; uint8_t TargetFlags; } LLVMJITSymbolFlags; /** * Represents an evaluated symbol address and flags. */ typedef struct { LLVMOrcJITTargetAddress Address; LLVMJITSymbolFlags Flags; } LLVMJITEvaluatedSymbol; /** * A reference to an orc::ExecutionSession instance. */ typedef struct LLVMOrcOpaqueExecutionSession *LLVMOrcExecutionSessionRef; /** * Error reporter function. */ typedef void (*LLVMOrcErrorReporterFunction)(void *Ctx, LLVMErrorRef Err); /** * A reference to an orc::SymbolStringPool. */ typedef struct LLVMOrcOpaqueSymbolStringPool *LLVMOrcSymbolStringPoolRef; /** * A reference to an orc::SymbolStringPool table entry. */ typedef struct LLVMOrcOpaqueSymbolStringPoolEntry *LLVMOrcSymbolStringPoolEntryRef; /** * Represents a pair of a symbol name and LLVMJITSymbolFlags. */ typedef struct { LLVMOrcSymbolStringPoolEntryRef Name; LLVMJITSymbolFlags Flags; } LLVMOrcCSymbolFlagsMapPair; /** * Represents a list of (SymbolStringPtr, JITSymbolFlags) pairs that can be used * to construct a SymbolFlagsMap. */ typedef LLVMOrcCSymbolFlagsMapPair *LLVMOrcCSymbolFlagsMapPairs; /** * Represents a pair of a symbol name and an evaluated symbol. */ typedef struct { LLVMOrcSymbolStringPoolEntryRef Name; LLVMJITEvaluatedSymbol Sym; } LLVMJITCSymbolMapPair; /** * Represents a list of (SymbolStringPtr, JITEvaluatedSymbol) pairs that can be * used to construct a SymbolMap. */ typedef LLVMJITCSymbolMapPair *LLVMOrcCSymbolMapPairs; /** * Lookup kind. This can be used by definition generators when deciding whether * to produce a definition for a requested symbol. * * This enum should be kept in sync with llvm::orc::LookupKind. */ typedef enum { LLVMOrcLookupKindStatic, LLVMOrcLookupKindDLSym } LLVMOrcLookupKind; /** * JITDylib lookup flags. This can be used by definition generators when * deciding whether to produce a definition for a requested symbol. * * This enum should be kept in sync with llvm::orc::JITDylibLookupFlags. */ typedef enum { LLVMOrcJITDylibLookupFlagsMatchExportedSymbolsOnly, LLVMOrcJITDylibLookupFlagsMatchAllSymbols } LLVMOrcJITDylibLookupFlags; /** * Symbol lookup flags for lookup sets. This should be kept in sync with * llvm::orc::SymbolLookupFlags. */ typedef enum { LLVMOrcSymbolLookupFlagsRequiredSymbol, LLVMOrcSymbolLookupFlagsWeaklyReferencedSymbol } LLVMOrcSymbolLookupFlags; /** * An element type for a symbol lookup set. */ typedef struct { LLVMOrcSymbolStringPoolEntryRef Name; LLVMOrcSymbolLookupFlags LookupFlags; } LLVMOrcCLookupSetElement; /** * A set of symbols to look up / generate. * * The list is terminated with an element containing a null pointer for the * Name field. * * If a client creates an instance of this type then they are responsible for * freeing it, and for ensuring that all strings have been retained over the * course of its life. Clients receiving a copy from a callback are not * responsible for managing lifetime or retain counts. */ typedef LLVMOrcCLookupSetElement *LLVMOrcCLookupSet; /** * A reference to a uniquely owned orc::MaterializationUnit instance. */ typedef struct LLVMOrcOpaqueMaterializationUnit *LLVMOrcMaterializationUnitRef; /** * A reference to a uniquely owned orc::MaterializationResponsibility instance. * * Ownership must be passed to a lower-level layer in a JIT stack. */ typedef struct LLVMOrcOpaqueMaterializationResponsibility *LLVMOrcMaterializationResponsibilityRef; /** * A reference to an orc::JITDylib instance. */ typedef struct LLVMOrcOpaqueJITDylib *LLVMOrcJITDylibRef; /** * A MaterializationUnit materialize callback. * * Ownership of the Ctx and MR arguments passes to the callback which must * adhere to the LLVMOrcMaterializationResponsibilityRef contract (see comment * for that type). * * If this callback is called then the LLVMOrcMaterializationUnitDestroy * callback will NOT be called. */ typedef void (*LLVMOrcMaterializationUnitMaterializeFunction)( void *Ctx, LLVMOrcMaterializationResponsibilityRef MR); /** * A MaterializationUnit discard callback. * * Ownership of JD and Symbol remain with the caller: These arguments should * not be disposed of or released. */ typedef void (*LLVMOrcMaterializationUnitDiscardFunction)( void *Ctx, LLVMOrcJITDylibRef JD, LLVMOrcSymbolStringPoolEntryRef Symbol); /** * A MaterializationUnit destruction callback. * * If a custom MaterializationUnit is destroyed before its Materialize * function is called then this function will be called to provide an * opportunity for the underlying program representation to be destroyed. */ typedef void (*LLVMOrcMaterializationUnitDestroyFunction)(void *Ctx); /** * A reference to an orc::ResourceTracker instance. */ typedef struct LLVMOrcOpaqueResourceTracker *LLVMOrcResourceTrackerRef; /** * A reference to an orc::DefinitionGenerator. */ typedef struct LLVMOrcOpaqueDefinitionGenerator *LLVMOrcDefinitionGeneratorRef; /** * An opaque lookup state object. Instances of this type can be captured to * suspend a lookup while a custom generator function attempts to produce a * definition. * * If a client captures a lookup state object then they must eventually call * LLVMOrcLookupStateContinueLookup to restart the lookup. This is required * in order to release memory allocated for the lookup state, even if errors * have occurred while the lookup was suspended (if these errors have made the * lookup impossible to complete then it will issue its own error before * destruction). */ typedef struct LLVMOrcOpaqueLookupState *LLVMOrcLookupStateRef; /** * A custom generator function. This can be used to create a custom generator * object using LLVMOrcCreateCustomCAPIDefinitionGenerator. The resulting * object can be attached to a JITDylib, via LLVMOrcJITDylibAddGenerator, to * receive callbacks when lookups fail to match existing definitions. * * GeneratorObj will contain the address of the custom generator object. * * Ctx will contain the context object passed to * LLVMOrcCreateCustomCAPIDefinitionGenerator. * * LookupState will contain a pointer to an LLVMOrcLookupStateRef object. This * can optionally be modified to make the definition generation process * asynchronous: If the LookupStateRef value is copied, and the original * LLVMOrcLookupStateRef set to null, the lookup will be suspended. Once the * asynchronous definition process has been completed clients must call * LLVMOrcLookupStateContinueLookup to continue the lookup (this should be * done unconditionally, even if errors have occurred in the mean time, to * free the lookup state memory and notify the query object of the failures). * If LookupState is captured this function must return LLVMErrorSuccess. * * The Kind argument can be inspected to determine the lookup kind (e.g. * as-if-during-static-link, or as-if-during-dlsym). * * The JD argument specifies which JITDylib the definitions should be generated * into. * * The JDLookupFlags argument can be inspected to determine whether the original * lookup included non-exported symobls. * * Finally, the LookupSet argument contains the set of symbols that could not * be found in JD already (the set of generation candidates). */ typedef LLVMErrorRef (*LLVMOrcCAPIDefinitionGeneratorTryToGenerateFunction)( LLVMOrcDefinitionGeneratorRef GeneratorObj, void *Ctx, LLVMOrcLookupStateRef *LookupState, LLVMOrcLookupKind Kind, LLVMOrcJITDylibRef JD, LLVMOrcJITDylibLookupFlags JDLookupFlags, LLVMOrcCLookupSet LookupSet, size_t LookupSetSize); /** * Predicate function for SymbolStringPoolEntries. */ typedef int (*LLVMOrcSymbolPredicate)(void *Ctx, LLVMOrcSymbolStringPoolEntryRef Sym); /** * A reference to an orc::ThreadSafeContext instance. */ typedef struct LLVMOrcOpaqueThreadSafeContext *LLVMOrcThreadSafeContextRef; /** * A reference to an orc::ThreadSafeModule instance. */ typedef struct LLVMOrcOpaqueThreadSafeModule *LLVMOrcThreadSafeModuleRef; /** * A reference to an orc::JITTargetMachineBuilder instance. */ typedef struct LLVMOrcOpaqueJITTargetMachineBuilder *LLVMOrcJITTargetMachineBuilderRef; /** * A reference to an orc::ObjectLayer instance. */ typedef struct LLVMOrcOpaqueObjectLayer *LLVMOrcObjectLayerRef; /** * A reference to an orc::ObjectLinkingLayer instance. */ typedef struct LLVMOrcOpaqueObjectLinkingLayer *LLVMOrcObjectLinkingLayerRef; /** * Attach a custom error reporter function to the ExecutionSession. * * The error reporter will be called to deliver failure notices that can not be * directly reported to a caller. For example, failure to resolve symbols in * the JIT linker is typically reported via the error reporter (callers * requesting definitions from the JIT will typically be delivered a * FailureToMaterialize error instead). */ void LLVMOrcExecutionSessionSetErrorReporter( LLVMOrcExecutionSessionRef ES, LLVMOrcErrorReporterFunction ReportError, void *Ctx); /** * Return a reference to the SymbolStringPool for an ExecutionSession. * * Ownership of the pool remains with the ExecutionSession: The caller is * not required to free the pool. */ LLVMOrcSymbolStringPoolRef LLVMOrcExecutionSessionGetSymbolStringPool(LLVMOrcExecutionSessionRef ES); /** * Clear all unreferenced symbol string pool entries. * * This can be called at any time to release unused entries in the * ExecutionSession's string pool. Since it locks the pool (preventing * interning of any new strings) it is recommended that it only be called * infrequently, ideally when the caller has reason to believe that some * entries will have become unreferenced, e.g. after removing a module or * closing a JITDylib. */ void LLVMOrcSymbolStringPoolClearDeadEntries(LLVMOrcSymbolStringPoolRef SSP); /** * Intern a string in the ExecutionSession's SymbolStringPool and return a * reference to it. This increments the ref-count of the pool entry, and the * returned value should be released once the client is done with it by * calling LLVMOrReleaseSymbolStringPoolEntry. * * Since strings are uniqued within the SymbolStringPool * LLVMOrcSymbolStringPoolEntryRefs can be compared by value to test string * equality. * * Note that this function does not perform linker-mangling on the string. */ LLVMOrcSymbolStringPoolEntryRef LLVMOrcExecutionSessionIntern(LLVMOrcExecutionSessionRef ES, const char *Name); /** * Increments the ref-count for a SymbolStringPool entry. */ void LLVMOrcRetainSymbolStringPoolEntry(LLVMOrcSymbolStringPoolEntryRef S); /** * Reduces the ref-count for of a SymbolStringPool entry. */ void LLVMOrcReleaseSymbolStringPoolEntry(LLVMOrcSymbolStringPoolEntryRef S); const char *LLVMOrcSymbolStringPoolEntryStr(LLVMOrcSymbolStringPoolEntryRef S); /** * Reduces the ref-count of a ResourceTracker. */ void LLVMOrcReleaseResourceTracker(LLVMOrcResourceTrackerRef RT); /** * Transfers tracking of all resources associated with resource tracker SrcRT * to resource tracker DstRT. */ void LLVMOrcResourceTrackerTransferTo(LLVMOrcResourceTrackerRef SrcRT, LLVMOrcResourceTrackerRef DstRT); /** * Remove all resources associated with the given tracker. See * ResourceTracker::remove(). */ LLVMErrorRef LLVMOrcResourceTrackerRemove(LLVMOrcResourceTrackerRef RT); /** * Dispose of a JITDylib::DefinitionGenerator. This should only be called if * ownership has not been passed to a JITDylib (e.g. because some error * prevented the client from calling LLVMOrcJITDylibAddGenerator). */ void LLVMOrcDisposeDefinitionGenerator(LLVMOrcDefinitionGeneratorRef DG); /** * Dispose of a MaterializationUnit. */ void LLVMOrcDisposeMaterializationUnit(LLVMOrcMaterializationUnitRef MU); /** * Create a custom MaterializationUnit. * * Name is a name for this MaterializationUnit to be used for identification * and logging purposes (e.g. if this MaterializationUnit produces an * object buffer then the name of that buffer will be derived from this name). * * The Syms list contains the names and linkages of the symbols provided by this * unit. This function takes ownership of the elements of the Syms array. The * Name fields of the array elements are taken to have been retained for this * function. The client should *not* release the elements of the array, but is * still responsible for destroyingthe array itself. * * The InitSym argument indicates whether or not this MaterializationUnit * contains static initializers. If three are no static initializers (the common * case) then this argument should be null. If there are static initializers * then InitSym should be set to a unique name that also appears in the Syms * list with the LLVMJITSymbolGenericFlagsMaterializationSideEffectsOnly flag * set. This function takes ownership of the InitSym, which should have been * retained twice on behalf of this function: once for the Syms entry and once * for InitSym. If clients wish to use the InitSym value after this function * returns they must retain it once more for themselves. * * If any of the symbols in the Syms list is looked up then the Materialize * function will be called. * * If any of the symbols in the Syms list is overridden then the Discard * function will be called. * * The caller owns the underling MaterializationUnit and is responsible for * either passing it to a JITDylib (via LLVMOrcJITDylibDefine) or disposing * of it by calling LLVMOrcDisposeMaterializationUnit. */ LLVMOrcMaterializationUnitRef LLVMOrcCreateCustomMaterializationUnit( const char *Name, void *Ctx, LLVMOrcCSymbolFlagsMapPairs Syms, size_t NumSyms, LLVMOrcSymbolStringPoolEntryRef InitSym, LLVMOrcMaterializationUnitMaterializeFunction Materialize, LLVMOrcMaterializationUnitDiscardFunction Discard, LLVMOrcMaterializationUnitDestroyFunction Destroy); /** * Create a MaterializationUnit to define the given symbols as pointing to * the corresponding raw addresses. * * This function takes ownership of the elements of the Syms array. The Name * fields of the array elements are taken to have been retained for this * function. This allows the following pattern... * * size_t NumPairs; * LLVMOrcCSymbolMapPairs Sym; * -- Build Syms array -- * LLVMOrcMaterializationUnitRef MU = * LLVMOrcAbsoluteSymbols(Syms, NumPairs); * * ... without requiring cleanup of the elements of the Sym array afterwards. * * The client is still responsible for deleting the Sym array itself. * * If a client wishes to reuse elements of the Sym array after this call they * must explicitly retain each of the elements for themselves. */ LLVMOrcMaterializationUnitRef LLVMOrcAbsoluteSymbols(LLVMOrcCSymbolMapPairs Syms, size_t NumPairs); /** * Create a "bare" JITDylib. * * The client is responsible for ensuring that the JITDylib's name is unique, * e.g. by calling LLVMOrcExecutionSessionGetJTIDylibByName first. * * This call does not install any library code or symbols into the newly * created JITDylib. The client is responsible for all configuration. */ LLVMOrcJITDylibRef LLVMOrcExecutionSessionCreateBareJITDylib(LLVMOrcExecutionSessionRef ES, const char *Name); /** * Create a JITDylib. * * The client is responsible for ensuring that the JITDylib's name is unique, * e.g. by calling LLVMOrcExecutionSessionGetJTIDylibByName first. * * If a Platform is attached to the ExecutionSession then * Platform::setupJITDylib will be called to install standard platform symbols * (e.g. standard library interposes). If no Platform is installed then this * call is equivalent to LLVMExecutionSessionRefCreateBareJITDylib and will * always return success. */ LLVMErrorRef LLVMOrcExecutionSessionCreateJITDylib(LLVMOrcExecutionSessionRef ES, LLVMOrcJITDylibRef *Result, const char *Name); /** * Returns the JITDylib with the given name, or NULL if no such JITDylib * exists. */ LLVMOrcJITDylibRef LLVMOrcExecutionSessionGetJITDylibByName(LLVMOrcExecutionSessionRef ES, const char *Name); /** * Return a reference to a newly created resource tracker associated with JD. * The tracker is returned with an initial ref-count of 1, and must be released * with LLVMOrcReleaseResourceTracker when no longer needed. */ LLVMOrcResourceTrackerRef LLVMOrcJITDylibCreateResourceTracker(LLVMOrcJITDylibRef JD); /** * Return a reference to the default resource tracker for the given JITDylib. * This operation will increase the retain count of the tracker: Clients should * call LLVMOrcReleaseResourceTracker when the result is no longer needed. */ LLVMOrcResourceTrackerRef LLVMOrcJITDylibGetDefaultResourceTracker(LLVMOrcJITDylibRef JD); /** * Add the given MaterializationUnit to the given JITDylib. * * If this operation succeeds then JITDylib JD will take ownership of MU. * If the operation fails then ownership remains with the caller who should * call LLVMOrcDisposeMaterializationUnit to destroy it. */ LLVMErrorRef LLVMOrcJITDylibDefine(LLVMOrcJITDylibRef JD, LLVMOrcMaterializationUnitRef MU); /** * Calls remove on all trackers associated with this JITDylib, see * JITDylib::clear(). */ LLVMErrorRef LLVMOrcJITDylibClear(LLVMOrcJITDylibRef JD); /** * Add a DefinitionGenerator to the given JITDylib. * * The JITDylib will take ownership of the given generator: The client is no * longer responsible for managing its memory. */ void LLVMOrcJITDylibAddGenerator(LLVMOrcJITDylibRef JD, LLVMOrcDefinitionGeneratorRef DG); /** * Create a custom generator. */ LLVMOrcDefinitionGeneratorRef LLVMOrcCreateCustomCAPIDefinitionGenerator( LLVMOrcCAPIDefinitionGeneratorTryToGenerateFunction F, void *Ctx); /** * Get a DynamicLibrarySearchGenerator that will reflect process symbols into * the JITDylib. On success the resulting generator is owned by the client. * Ownership is typically transferred by adding the instance to a JITDylib * using LLVMOrcJITDylibAddGenerator, * * The GlobalPrefix argument specifies the character that appears on the front * of linker-mangled symbols for the target platform (e.g. '_' on MachO). * If non-null, this character will be stripped from the start of all symbol * strings before passing the remaining substring to dlsym. * * The optional Filter and Ctx arguments can be used to supply a symbol name * filter: Only symbols for which the filter returns true will be visible to * JIT'd code. If the Filter argument is null then all process symbols will * be visible to JIT'd code. Note that the symbol name passed to the Filter * function is the full mangled symbol: The client is responsible for stripping * the global prefix if present. */ LLVMErrorRef LLVMOrcCreateDynamicLibrarySearchGeneratorForProcess( LLVMOrcDefinitionGeneratorRef *Result, char GlobalPrefx, LLVMOrcSymbolPredicate Filter, void *FilterCtx); /** * Create a ThreadSafeContext containing a new LLVMContext. * * Ownership of the underlying ThreadSafeContext data is shared: Clients * can and should dispose of their ThreadSafeContext as soon as they no longer * need to refer to it directly. Other references (e.g. from ThreadSafeModules) * will keep the data alive as long as it is needed. */ LLVMOrcThreadSafeContextRef LLVMOrcCreateNewThreadSafeContext(void); /** * Get a reference to the wrapped LLVMContext. */ LLVMContextRef LLVMOrcThreadSafeContextGetContext(LLVMOrcThreadSafeContextRef TSCtx); /** * Dispose of a ThreadSafeContext. */ void LLVMOrcDisposeThreadSafeContext(LLVMOrcThreadSafeContextRef TSCtx); /** * Create a ThreadSafeModule wrapper around the given LLVM module. This takes * ownership of the M argument which should not be disposed of or referenced * after this function returns. * * Ownership of the ThreadSafeModule is unique: If it is transferred to the JIT * (e.g. by LLVMOrcLLJITAddLLVMIRModule) then the client is no longer * responsible for it. If it is not transferred to the JIT then the client * should call LLVMOrcDisposeThreadSafeModule to dispose of it. */ LLVMOrcThreadSafeModuleRef LLVMOrcCreateNewThreadSafeModule(LLVMModuleRef M, LLVMOrcThreadSafeContextRef TSCtx); /** * Dispose of a ThreadSafeModule. This should only be called if ownership has * not been passed to LLJIT (e.g. because some error prevented the client from * adding this to the JIT). */ void LLVMOrcDisposeThreadSafeModule(LLVMOrcThreadSafeModuleRef TSM); /** * Create a JITTargetMachineBuilder by detecting the host. * * On success the client owns the resulting JITTargetMachineBuilder. It must be * passed to a consuming operation (e.g. * LLVMOrcLLJITBuilderSetJITTargetMachineBuilder) or disposed of by calling * LLVMOrcDisposeJITTargetMachineBuilder. */ LLVMErrorRef LLVMOrcJITTargetMachineBuilderDetectHost( LLVMOrcJITTargetMachineBuilderRef *Result); /** * Create a JITTargetMachineBuilder from the given TargetMachine template. * * This operation takes ownership of the given TargetMachine and destroys it * before returing. The resulting JITTargetMachineBuilder is owned by the client * and must be passed to a consuming operation (e.g. * LLVMOrcLLJITBuilderSetJITTargetMachineBuilder) or disposed of by calling * LLVMOrcDisposeJITTargetMachineBuilder. */ LLVMOrcJITTargetMachineBuilderRef LLVMOrcJITTargetMachineBuilderCreateFromTargetMachine(LLVMTargetMachineRef TM); /** * Dispose of a JITTargetMachineBuilder. */ void LLVMOrcDisposeJITTargetMachineBuilder( LLVMOrcJITTargetMachineBuilderRef JTMB); /** * Returns the target triple for the given JITTargetMachineBuilder as a string. * * The caller owns the resulting string as must dispose of it by calling * LLVMDisposeMessage */ char *LLVMOrcJITTargetMachineBuilderGetTargetTriple( LLVMOrcJITTargetMachineBuilderRef JTMB); /** * Sets the target triple for the given JITTargetMachineBuilder to the given * string. */ void LLVMOrcJITTargetMachineBuilderSetTargetTriple( LLVMOrcJITTargetMachineBuilderRef JTMB, const char *TargetTriple); /** * Add an object to an ObjectLayer to the given JITDylib. * * Adds a buffer representing an object file to the given JITDylib using the * given ObjectLayer instance. This operation transfers ownership of the buffer * to the ObjectLayer instance. The buffer should not be disposed of or * referenced once this function returns. * * Resources associated with the given object will be tracked by the given * JITDylib's default ResourceTracker. */ LLVMErrorRef LLVMOrcObjectLayerAddObjectFile(LLVMOrcObjectLayerRef ObjLayer, LLVMOrcJITDylibRef JD, LLVMMemoryBufferRef ObjBuffer); /** * Add an object to an ObjectLayer using the given ResourceTracker. * * Adds a buffer representing an object file to the given ResourceTracker's * JITDylib using the given ObjectLayer instance. This operation transfers * ownership of the buffer to the ObjectLayer instance. The buffer should not * be disposed of or referenced once this function returns. * * Resources associated with the given object will be tracked by * ResourceTracker RT. */ LLVMErrorRef LLVMOrcObjectLayerAddObjectFileWithRT(LLVMOrcObjectLayerRef ObjLayer, LLVMOrcResourceTrackerRef RT, LLVMMemoryBufferRef ObjBuffer); /** * Emit an object buffer to an ObjectLayer. * * Ownership of the responsibility object and object buffer pass to this * function. The client is not responsible for cleanup. */ void LLVMOrcObjectLayerEmit(LLVMOrcObjectLayerRef ObjLayer, LLVMOrcMaterializationResponsibilityRef R, LLVMMemoryBufferRef ObjBuffer); /** * Dispose of an ObjectLayer. */ void LLVMOrcDisposeObjectLayer(LLVMOrcObjectLayerRef ObjLayer); LLVM_C_EXTERN_C_END #endif /* LLVM_C_ORC_H */