Subversion Repositories QNX 8.QNX8 LLVM/Clang compiler suite

/*===---------------- 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

/**

 * @defgroup LLVMCExecutionEngineORC On-Request-Compilation

 * @ingroup LLVMCExecutionEngine

 *

 * @{

 */

/**

 * Represents an address in the executor process.

 */

typedef uint64_t LLVMOrcJITTargetAddress;

/**

 * Represents an address in the executor process.

 */

typedef uint64_t LLVMOrcExecutorAddress;

/**

 * Represents generic linkage flags for a symbol definition.

 */

typedef enum {

  LLVMJITSymbolGenericFlagsNone = 0,

  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 {

  LLVMOrcExecutorAddress 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;

} LLVMOrcCSymbolMapPair;

/**

 * Represents a list of (SymbolStringPtr, JITEvaluatedSymbol) pairs that can be

 * used to construct a SymbolMap.

 */

typedef LLVMOrcCSymbolMapPair *LLVMOrcCSymbolMapPairs;

/**

 * Represents a SymbolAliasMapEntry

 */

typedef struct {

  LLVMOrcSymbolStringPoolEntryRef Name;

  LLVMJITSymbolFlags Flags;

} LLVMOrcCSymbolAliasMapEntry;

/**

 * Represents a pair of a symbol name and SymbolAliasMapEntry.

 */

typedef struct {

  LLVMOrcSymbolStringPoolEntryRef Name;

  LLVMOrcCSymbolAliasMapEntry Entry;

} LLVMOrcCSymbolAliasMapPair;

/**

 * Represents a list of (SymbolStringPtr, (SymbolStringPtr, JITSymbolFlags))

 * pairs that can be used to construct a SymbolFlagsMap.

 */

typedef LLVMOrcCSymbolAliasMapPair *LLVMOrcCSymbolAliasMapPairs;

/**

 * A reference to an orc::JITDylib instance.

 */

typedef struct LLVMOrcOpaqueJITDylib *LLVMOrcJITDylibRef;

/**

 * Represents a list of LLVMOrcSymbolStringPoolEntryRef and the associated

 * length.

 */

typedef struct {

  LLVMOrcSymbolStringPoolEntryRef *Symbols;

  size_t Length;

} LLVMOrcCSymbolsList;

/**

 * Represents a pair of a JITDylib and LLVMOrcCSymbolsList.

 */

typedef struct {

  LLVMOrcJITDylibRef JD;

  LLVMOrcCSymbolsList Names;

} LLVMOrcCDependenceMapPair;

/**

 * Represents a list of (JITDylibRef, (LLVMOrcSymbolStringPoolEntryRef*,

 * size_t)) pairs that can be used to construct a SymbolDependenceMap.

 */

typedef LLVMOrcCDependenceMapPair *LLVMOrcCDependenceMapPairs;

/**

 * 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;

/**

 * An element type for a JITDylib search order.

 */

typedef struct {

  LLVMOrcJITDylibRef JD;

  LLVMOrcJITDylibLookupFlags JDLookupFlags;

} LLVMOrcCJITDylibSearchOrderElement;

/**

 * A JITDylib search order.

 *

 * The list is terminated with an element containing a null pointer for the JD

 * field.

 */

typedef LLVMOrcCJITDylibSearchOrderElement *LLVMOrcCJITDylibSearchOrder;

/**

 * 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 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);

/**

 * Disposer for a custom generator.

 *

 * Will be called by ORC when the JITDylib that the generator is attached to

 * is destroyed.

 */

typedef void (*LLVMOrcDisposeCAPIDefinitionGeneratorFunction)(void *Ctx);

/**

 * 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 function for inspecting/mutating IR modules, suitable for use with

 * LLVMOrcThreadSafeModuleWithModuleDo.

 */

typedef LLVMErrorRef (*LLVMOrcGenericIRModuleOperationFunction)(

    void *Ctx, LLVMModuleRef M);

/**

 * 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;

/**

 * A reference to an orc::IRTransformLayer instance.

 */

typedef struct LLVMOrcOpaqueIRTransformLayer *LLVMOrcIRTransformLayerRef;

/**

 * A function for applying transformations as part of an transform layer.

 *

 * Implementations of this type are responsible for managing the lifetime

 * of the Module pointed to by ModInOut: If the LLVMModuleRef value is

 * overwritten then the function is responsible for disposing of the incoming

 * module. If the module is simply accessed/mutated in-place then ownership

 * returns to the caller and the function does not need to do any lifetime

 * management.

 *

 * Clients can call LLVMOrcLLJITGetIRTransformLayer to obtain the transform

 * layer of a LLJIT instance, and use LLVMOrcIRTransformLayerSetTransform

 * to set the function. This can be used to override the default transform

 * layer.

 */

typedef LLVMErrorRef (*LLVMOrcIRTransformLayerTransformFunction)(

    void *Ctx, LLVMOrcThreadSafeModuleRef *ModInOut,

    LLVMOrcMaterializationResponsibilityRef MR);

/**

 * A reference to an orc::ObjectTransformLayer instance.

 */

typedef struct LLVMOrcOpaqueObjectTransformLayer

    *LLVMOrcObjectTransformLayerRef;

/**

 * A function for applying transformations to an object file buffer.

 *

 * Implementations of this type are responsible for managing the lifetime

 * of the memory buffer pointed to by ObjInOut: If the LLVMMemoryBufferRef

 * value is overwritten then the function is responsible for disposing of the

 * incoming buffer. If the buffer is simply accessed/mutated in-place then

 * ownership returns to the caller and the function does not need to do any

 * lifetime management.

 *

 * The transform is allowed to return an error, in which case the ObjInOut

 * buffer should be disposed of and set to null.

 */

typedef LLVMErrorRef (*LLVMOrcObjectTransformLayerTransformFunction)(

    void *Ctx, LLVMMemoryBufferRef *ObjInOut);

/**

 * A reference to an orc::IndirectStubsManager instance.

 */

typedef struct LLVMOrcOpaqueIndirectStubsManager

    *LLVMOrcIndirectStubsManagerRef;

/**

 * A reference to an orc::LazyCallThroughManager instance.

 */

typedef struct LLVMOrcOpaqueLazyCallThroughManager

    *LLVMOrcLazyCallThroughManagerRef;

/**

 * A reference to an orc::DumpObjects object.

 *

 * Can be used to dump object files to disk with unique names. Useful as an

 * ObjectTransformLayer transform.

 */

typedef struct LLVMOrcOpaqueDumpObjects *LLVMOrcDumpObjectsRef;

/**

 * 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);

/**

 * Callback type for ExecutionSession lookups.

 *

 * If Err is LLVMErrorSuccess then Result will contain a pointer to a

 * list of ( SymbolStringPtr, JITEvaluatedSymbol ) pairs of length NumPairs.

 *

 * If Err is a failure value then Result and Ctx are undefined and should

 * not be accessed. The Callback is responsible for handling the error

 * value (e.g. by calling LLVMGetErrorMessage + LLVMDisposeErrorMessage).

 *

 * The caller retains ownership of the Result array and will release all

 * contained symbol names. Clients are responsible for retaining any symbol

 * names that they wish to hold after the function returns.

 */

typedef void (*LLVMOrcExecutionSessionLookupHandleResultFunction)(

    LLVMErrorRef Err, LLVMOrcCSymbolMapPairs Result, size_t NumPairs,

    void *Ctx);

/**

 * Look up symbols in an execution session.

 *

 * This is a wrapper around the general ExecutionSession::lookup function.

 *

 * The SearchOrder argument contains a list of (JITDylibs, JITDylibSearchFlags)

 * pairs that describe the search order. The JITDylibs will be searched in the

 * given order to try to find the symbols in the Symbols argument.

 *

 * The Symbols argument should contain a null-terminated array of

 * (SymbolStringPtr, SymbolLookupFlags) pairs describing the symbols to be

 * searched for. This function takes ownership of the elements of the Symbols

 * array. The Name fields of the Symbols elements are taken to have been

 * retained by the client for this function. The client should *not* release the

 * Name fields, but are still responsible for destroying the array itself.

 *

 * The HandleResult function will be called once all searched for symbols have

 * been found, or an error occurs. The HandleResult function will be passed an

 * LLVMErrorRef indicating success or failure, and (on success) a

 * null-terminated LLVMOrcCSymbolMapPairs array containing the function result,

 * and the Ctx value passed to the lookup function.

 *

 * The client is fully responsible for managing the lifetime of the Ctx object.

 * A common idiom is to allocate the context prior to the lookup and deallocate

 * it in the handler.

 *

 * THIS API IS EXPERIMENTAL AND LIKELY TO CHANGE IN THE NEAR FUTURE!

 */

void LLVMOrcExecutionSessionLookup(

    LLVMOrcExecutionSessionRef ES, LLVMOrcLookupKind K,

    LLVMOrcCJITDylibSearchOrder SearchOrder, size_t SearchOrderSize,

    LLVMOrcCLookupSet Symbols, size_t SymbolsSize,

    LLVMOrcExecutionSessionLookupHandleResultFunction HandleResult, void *Ctx);

/**

 * 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);

/**

 * Return the c-string for the given symbol. This string will remain valid until

 * the entry is freed (once all LLVMOrcSymbolStringPoolEntryRefs have been

 * released).

 */

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 destroying the 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 MaterializationUnit to define lazy re-expots. These are callable

 * entry points that call through to the given symbols.

 *

 * This function takes ownership of the CallableAliases 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;

 *   LLVMOrcCSymbolAliasMapPairs CallableAliases;

 *   -- Build CallableAliases array --

 *   LLVMOrcMaterializationUnitRef MU =

 *      LLVMOrcLazyReexports(LCTM, ISM, JD, CallableAliases, NumPairs);

 *

 * ... without requiring cleanup of the elements of the CallableAliases array afterwards.

 *

 * The client is still responsible for deleting the CallableAliases array itself.

 *

 * If a client wishes to reuse elements of the CallableAliases array after this call they

 * must explicitly retain each of the elements for themselves.

 */

LLVMOrcMaterializationUnitRef LLVMOrcLazyReexports(

    LLVMOrcLazyCallThroughManagerRef LCTM, LLVMOrcIndirectStubsManagerRef ISM,

    LLVMOrcJITDylibRef SourceRef, LLVMOrcCSymbolAliasMapPairs CallableAliases,

    size_t NumPairs);

// TODO: ImplSymbolMad SrcJDLoc

/**

 * Disposes of the passed MaterializationResponsibility object.

 *

 * This should only be done after the symbols covered by the object have either

 * been resolved and emitted (via

 * LLVMOrcMaterializationResponsibilityNotifyResolved and

 * LLVMOrcMaterializationResponsibilityNotifyEmitted) or failed (via

 * LLVMOrcMaterializationResponsibilityFailMaterialization).

 */

void LLVMOrcDisposeMaterializationResponsibility(

    LLVMOrcMaterializationResponsibilityRef MR);

/**

 * Returns the target JITDylib that these symbols are being materialized into.

 */

LLVMOrcJITDylibRef LLVMOrcMaterializationResponsibilityGetTargetDylib(

    LLVMOrcMaterializationResponsibilityRef MR);

/**

 * Returns the ExecutionSession for this MaterializationResponsibility.

 */

LLVMOrcExecutionSessionRef

LLVMOrcMaterializationResponsibilityGetExecutionSession(

    LLVMOrcMaterializationResponsibilityRef MR);

/**

 * Returns the symbol flags map for this responsibility instance.

 *

 * The length of the array is returned in NumPairs and the caller is responsible

 * for the returned memory and needs to call LLVMOrcDisposeCSymbolFlagsMap.

 *

 * To use the returned symbols beyond the livetime of the

 * MaterializationResponsibility requires the caller to retain the symbols

 * explicitly.

 */

LLVMOrcCSymbolFlagsMapPairs LLVMOrcMaterializationResponsibilityGetSymbols(

    LLVMOrcMaterializationResponsibilityRef MR, size_t *NumPairs);

/**

 * Disposes of the passed LLVMOrcCSymbolFlagsMap.

 *

 * Does not release the entries themselves.

 */

void LLVMOrcDisposeCSymbolFlagsMap(LLVMOrcCSymbolFlagsMapPairs Pairs);

/**

 * Returns the initialization pseudo-symbol, if any. This symbol will also

 * be present in the SymbolFlagsMap for this MaterializationResponsibility

 * object.

 *

 * The returned symbol is not retained over any mutating operation of the

 * MaterializationResponsbility or beyond the lifetime thereof.

 */

LLVMOrcSymbolStringPoolEntryRef

LLVMOrcMaterializationResponsibilityGetInitializerSymbol(

    LLVMOrcMaterializationResponsibilityRef MR);

/**

 * Returns the names of any symbols covered by this

 * MaterializationResponsibility object that have queries pending. This

 * information can be used to return responsibility for unrequested symbols

 * back to the JITDylib via the delegate method.

 */

LLVMOrcSymbolStringPoolEntryRef *

LLVMOrcMaterializationResponsibilityGetRequestedSymbols(

    LLVMOrcMaterializationResponsibilityRef MR, size_t *NumSymbols);

/**

 * Disposes of the passed LLVMOrcSymbolStringPoolEntryRef* .

 *

 * Does not release the symbols themselves.

 */

void LLVMOrcDisposeSymbols(LLVMOrcSymbolStringPoolEntryRef *Symbols);

/**

 * Notifies the target JITDylib that the given symbols have been resolved.

 * This will update the given symbols' addresses in the JITDylib, and notify

 * any pending queries on the given symbols of their resolution. The given

 * symbols must be ones covered by this MaterializationResponsibility

 * instance. Individual calls to this method may resolve a subset of the

 * symbols, but all symbols must have been resolved prior to calling emit.

 *

 * This method will return an error if any symbols being resolved have been

 * moved to the error state due to the failure of a dependency. If this

 * method returns an error then clients should log it and call

 * LLVMOrcMaterializationResponsibilityFailMaterialization. If no dependencies

 * have been registered for the symbols covered by this

 * MaterializationResponsibiility then this method is guaranteed to return

 * LLVMErrorSuccess.

 */

LLVMErrorRef LLVMOrcMaterializationResponsibilityNotifyResolved(

    LLVMOrcMaterializationResponsibilityRef MR, LLVMOrcCSymbolMapPairs Symbols,

    size_t NumPairs);

/**

 * Notifies the target JITDylib (and any pending queries on that JITDylib)

 * that all symbols covered by this MaterializationResponsibility instance

 * have been emitted.

 *

 * This method will return an error if any symbols being resolved have been

 * moved to the error state due to the failure of a dependency. If this

 * method returns an error then clients should log it and call

 * LLVMOrcMaterializationResponsibilityFailMaterialization.

 * If no dependencies have been registered for the symbols covered by this

 * MaterializationResponsibiility then this method is guaranteed to return

 * LLVMErrorSuccess.

 */

LLVMErrorRef LLVMOrcMaterializationResponsibilityNotifyEmitted(

    LLVMOrcMaterializationResponsibilityRef MR);

/**

 * Attempt to claim responsibility for new definitions. This method can be

 * used to claim responsibility for symbols that are added to a

 * materialization unit during the compilation process (e.g. literal pool

 * symbols). Symbol linkage rules are the same as for symbols that are

 * defined up front: duplicate strong definitions will result in errors.

 * Duplicate weak definitions will be discarded (in which case they will

 * not be added to this responsibility instance).

 *

 * This method can be used by materialization units that want to add

 * additional symbols at materialization time (e.g. stubs, compile

 * callbacks, metadata)

 */

LLVMErrorRef LLVMOrcMaterializationResponsibilityDefineMaterializing(

    LLVMOrcMaterializationResponsibilityRef MR,

    LLVMOrcCSymbolFlagsMapPairs Pairs, size_t NumPairs);

/**

 * Notify all not-yet-emitted covered by this MaterializationResponsibility

 * instance that an error has occurred.

 * This will remove all symbols covered by this MaterializationResponsibilty

 * from the target JITDylib, and send an error to any queries waiting on

 * these symbols.

 */

void LLVMOrcMaterializationResponsibilityFailMaterialization(

    LLVMOrcMaterializationResponsibilityRef MR);

/**

 * Transfers responsibility to the given MaterializationUnit for all

 * symbols defined by that MaterializationUnit. This allows

 * materializers to break up work based on run-time information (e.g.

 * by introspecting which symbols have actually been looked up and

 * materializing only those).

 */

LLVMErrorRef LLVMOrcMaterializationResponsibilityReplace(

    LLVMOrcMaterializationResponsibilityRef MR,

    LLVMOrcMaterializationUnitRef MU);

/**

 * Delegates responsibility for the given symbols to the returned

 * materialization responsibility. Useful for breaking up work between

 * threads, or different kinds of materialization processes.

 *

 * The caller retains responsibility of the the passed

 * MaterializationResponsibility.

 */

LLVMErrorRef LLVMOrcMaterializationResponsibilityDelegate(

    LLVMOrcMaterializationResponsibilityRef MR,

    LLVMOrcSymbolStringPoolEntryRef *Symbols, size_t NumSymbols,

    LLVMOrcMaterializationResponsibilityRef *Result);

/**

 * Adds dependencies to a symbol that the MaterializationResponsibility is

 * responsible for.

 *

 * This function takes ownership of Dependencies struct. The Names

 * array have been retained for this function. This allows the following

 * pattern...

 *

 *   LLVMOrcSymbolStringPoolEntryRef Names[] = {...};

 *   LLVMOrcCDependenceMapPair Dependence = {JD, {Names, sizeof(Names)}}

 *   LLVMOrcMaterializationResponsibilityAddDependencies(JD, Name, &Dependence,

 * 1);

 *

 * ... without requiring cleanup of the elements of the Names array afterwards.

 *

 * The client is still responsible for deleting the Dependencies.Names array

 * itself.

 */

void LLVMOrcMaterializationResponsibilityAddDependencies(

    LLVMOrcMaterializationResponsibilityRef MR,

    LLVMOrcSymbolStringPoolEntryRef Name,

    LLVMOrcCDependenceMapPairs Dependencies, size_t NumPairs);

/**

 * Adds dependencies to all symbols that the MaterializationResponsibility is

 * responsible for. See LLVMOrcMaterializationResponsibilityAddDependencies for

 * notes about memory responsibility.

 */

void LLVMOrcMaterializationResponsibilityAddDependenciesForAll(

    LLVMOrcMaterializationResponsibilityRef MR,

    LLVMOrcCDependenceMapPairs Dependencies, 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,