include/llvm-c/Orc.h - llvm-project/llvm - Git at Google

 /*===---------------- 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
 } LLVMJITSymbolGenericFlags;

 /**
  * Represents target specific flags for a symbol definition.
  */
 typedef uint8_t LLVMJITTargetSymbolFlags;

 /**
  * 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 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 an orc::MaterializationUnit.
  */
 typedef struct LLVMOrcOpaqueMaterializationUnit *LLVMOrcMaterializationUnitRef;

 /**
  * A reference to an orc::JITDylib instance.
  */
 typedef struct LLVMOrcOpaqueJITDylib *LLVMOrcJITDylibRef;

 /**
  * 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;

 /**
  * 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 MaterializationUnit to define the given symbols as pointing to
  * the corresponding raw addresses.
  */
 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(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. LLVMOrcCreateLLJITBuilder) 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. LLVMOrcCreateLLJITBuilder)
  * or disposed of by calling LLVMOrcDisposeJITTargetMachineBuilder.
  */
 LLVMOrcJITTargetMachineBuilderRef
 LLVMOrcJITTargetMachineBuilderCreateFromTargetMachine(LLVMTargetMachineRef TM);

 /**
  * Dispose of a JITTargetMachineBuilder.
  */
 void LLVMOrcDisposeJITTargetMachineBuilder(
     LLVMOrcJITTargetMachineBuilderRef JTMB);

 /**
  * Dispose of an ObjectLayer.
  */
 void LLVMOrcDisposeObjectLayer(LLVMOrcObjectLayerRef ObjLayer);

 LLVM_C_EXTERN_C_END

 #endif /* LLVM_C_ORC_H */
	/===---------------- 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
	} LLVMJITSymbolGenericFlags;

	/**
	* Represents target specific flags for a symbol definition.
	*/
	typedef uint8_t LLVMJITTargetSymbolFlags;

	/**
	* 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 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 an orc::MaterializationUnit.
	*/
	typedef struct LLVMOrcOpaqueMaterializationUnit *LLVMOrcMaterializationUnitRef;

	/**
	* A reference to an orc::JITDylib instance.
	*/
	typedef struct LLVMOrcOpaqueJITDylib *LLVMOrcJITDylibRef;

	/**
	* 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;

	/**
	* 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 MaterializationUnit to define the given symbols as pointing to
	* the corresponding raw addresses.
	*/
	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(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. LLVMOrcCreateLLJITBuilder) 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. LLVMOrcCreateLLJITBuilder)
	* or disposed of by calling LLVMOrcDisposeJITTargetMachineBuilder.
	*/
	LLVMOrcJITTargetMachineBuilderRef
	LLVMOrcJITTargetMachineBuilderCreateFromTargetMachine(LLVMTargetMachineRef TM);

	/**
	* Dispose of a JITTargetMachineBuilder.
	*/
	void LLVMOrcDisposeJITTargetMachineBuilder(
	LLVMOrcJITTargetMachineBuilderRef JTMB);

	/**
	* Dispose of an ObjectLayer.
	*/
	void LLVMOrcDisposeObjectLayer(LLVMOrcObjectLayerRef ObjLayer);

	LLVM_C_EXTERN_C_END

	#endif /* LLVM_C_ORC_H */