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|
/*===-- llvm-c/Core.h - Core Library C Interface ------------------*- C -*-===*\
|* *|
|* The LLVM Compiler Infrastructure *|
|* *|
|* This file is distributed under the University of Illinois Open Source *|
|* License. See LICENSE.TXT for details. *|
|* *|
|*===----------------------------------------------------------------------===*|
|* *|
|* This header declares the C interface to libLLVMCore.a, which implements *|
|* the LLVM intermediate representation. *|
|* *|
\*===----------------------------------------------------------------------===*/
#ifndef LLVM_C_CORE_H
#define LLVM_C_CORE_H
#include "llvm/Support/DataTypes.h"
#ifdef __cplusplus
/* Need these includes to support the LLVM 'cast' template for the C++ 'wrap'
and 'unwrap' conversion functions. */
#include "llvm/IR/IRBuilder.h"
#include "llvm/IR/Module.h"
#include "llvm/PassRegistry.h"
extern "C" {
#endif
/**
* @defgroup LLVMC LLVM-C: C interface to LLVM
*
* This module exposes parts of the LLVM library as a C API.
*
* @{
*/
/**
* @defgroup LLVMCTransforms Transforms
*/
/**
* @defgroup LLVMCCore Core
*
* This modules provide an interface to libLLVMCore, which implements
* the LLVM intermediate representation as well as other related types
* and utilities.
*
* LLVM uses a polymorphic type hierarchy which C cannot represent, therefore
* parameters must be passed as base types. Despite the declared types, most
* of the functions provided operate only on branches of the type hierarchy.
* The declared parameter names are descriptive and specify which type is
* required. Additionally, each type hierarchy is documented along with the
* functions that operate upon it. For more detail, refer to LLVM's C++ code.
* If in doubt, refer to Core.cpp, which performs parameter downcasts in the
* form unwrap<RequiredType>(Param).
*
* 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.
*
* When included into a C++ source file, also declares 'wrap' and 'unwrap'
* helpers to perform opaque reference<-->pointer conversions. These helpers
* are shorter and more tightly typed than writing the casts by hand when
* authoring bindings. In assert builds, they will do runtime type checking.
*
* @{
*/
/**
* @defgroup LLVMCCoreTypes Types and Enumerations
*
* @{
*/
typedef int LLVMBool;
/* Opaque types. */
/**
* The top-level container for all LLVM global data. See the LLVMContext class.
*/
typedef struct LLVMOpaqueContext *LLVMContextRef;
/**
* The top-level container for all other LLVM Intermediate Representation (IR)
* objects.
*
* @see llvm::Module
*/
typedef struct LLVMOpaqueModule *LLVMModuleRef;
/**
* Each value in the LLVM IR has a type, an LLVMTypeRef.
*
* @see llvm::Type
*/
typedef struct LLVMOpaqueType *LLVMTypeRef;
/**
* Represents an individual value in LLVM IR.
*
* This models llvm::Value.
*/
typedef struct LLVMOpaqueValue *LLVMValueRef;
/**
* Represents a basic block of instructions in LLVM IR.
*
* This models llvm::BasicBlock.
*/
typedef struct LLVMOpaqueBasicBlock *LLVMBasicBlockRef;
/**
* Represents an LLVM basic block builder.
*
* This models llvm::IRBuilder.
*/
typedef struct LLVMOpaqueBuilder *LLVMBuilderRef;
/**
* Interface used to provide a module to JIT or interpreter.
* This is now just a synonym for llvm::Module, but we have to keep using the
* different type to keep binary compatibility.
*/
typedef struct LLVMOpaqueModuleProvider *LLVMModuleProviderRef;
/**
* Used to provide a module to JIT or interpreter.
*
* @see llvm::MemoryBuffer
*/
typedef struct LLVMOpaqueMemoryBuffer *LLVMMemoryBufferRef;
/** @see llvm::PassManagerBase */
typedef struct LLVMOpaquePassManager *LLVMPassManagerRef;
/** @see llvm::PassRegistry */
typedef struct LLVMOpaquePassRegistry *LLVMPassRegistryRef;
/**
* Used to get the users and usees of a Value.
*
* @see llvm::Use */
typedef struct LLVMOpaqueUse *LLVMUseRef;
typedef enum {
LLVMZExtAttribute = 1<<0,
LLVMSExtAttribute = 1<<1,
LLVMNoReturnAttribute = 1<<2,
LLVMInRegAttribute = 1<<3,
LLVMStructRetAttribute = 1<<4,
LLVMNoUnwindAttribute = 1<<5,
LLVMNoAliasAttribute = 1<<6,
LLVMByValAttribute = 1<<7,
LLVMNestAttribute = 1<<8,
LLVMReadNoneAttribute = 1<<9,
LLVMReadOnlyAttribute = 1<<10,
LLVMNoInlineAttribute = 1<<11,
LLVMAlwaysInlineAttribute = 1<<12,
LLVMOptimizeForSizeAttribute = 1<<13,
LLVMStackProtectAttribute = 1<<14,
LLVMStackProtectReqAttribute = 1<<15,
LLVMAlignment = 31<<16,
LLVMNoCaptureAttribute = 1<<21,
LLVMNoRedZoneAttribute = 1<<22,
LLVMNoImplicitFloatAttribute = 1<<23,
LLVMNakedAttribute = 1<<24,
LLVMInlineHintAttribute = 1<<25,
LLVMStackAlignment = 7<<26,
LLVMReturnsTwice = 1 << 29,
LLVMUWTable = 1 << 30,
LLVMNonLazyBind = 1 << 31
/* FIXME: These attributes are currently not included in the C API as
a temporary measure until the API/ABI impact to the C API is understood
and the path forward agreed upon.
LLVMAddressSafety = 1ULL << 32,
LLVMStackProtectStrongAttribute = 1ULL<<33
*/
} LLVMAttribute;
typedef enum {
/* Terminator Instructions */
LLVMRet = 1,
LLVMBr = 2,
LLVMSwitch = 3,
LLVMIndirectBr = 4,
LLVMInvoke = 5,
/* removed 6 due to API changes */
LLVMUnreachable = 7,
/* Standard Binary Operators */
LLVMAdd = 8,
LLVMFAdd = 9,
LLVMSub = 10,
LLVMFSub = 11,
LLVMMul = 12,
LLVMFMul = 13,
LLVMUDiv = 14,
LLVMSDiv = 15,
LLVMFDiv = 16,
LLVMURem = 17,
LLVMSRem = 18,
LLVMFRem = 19,
/* Logical Operators */
LLVMShl = 20,
LLVMLShr = 21,
LLVMAShr = 22,
LLVMAnd = 23,
LLVMOr = 24,
LLVMXor = 25,
/* Memory Operators */
LLVMAlloca = 26,
LLVMLoad = 27,
LLVMStore = 28,
LLVMGetElementPtr = 29,
/* Cast Operators */
LLVMTrunc = 30,
LLVMZExt = 31,
LLVMSExt = 32,
LLVMFPToUI = 33,
LLVMFPToSI = 34,
LLVMUIToFP = 35,
LLVMSIToFP = 36,
LLVMFPTrunc = 37,
LLVMFPExt = 38,
LLVMPtrToInt = 39,
LLVMIntToPtr = 40,
LLVMBitCast = 41,
/* Other Operators */
LLVMICmp = 42,
LLVMFCmp = 43,
LLVMPHI = 44,
LLVMCall = 45,
LLVMSelect = 46,
LLVMUserOp1 = 47,
LLVMUserOp2 = 48,
LLVMVAArg = 49,
LLVMExtractElement = 50,
LLVMInsertElement = 51,
LLVMShuffleVector = 52,
LLVMExtractValue = 53,
LLVMInsertValue = 54,
/* Atomic operators */
LLVMFence = 55,
LLVMAtomicCmpXchg = 56,
LLVMAtomicRMW = 57,
/* Exception Handling Operators */
LLVMResume = 58,
LLVMLandingPad = 59
} LLVMOpcode;
typedef enum {
LLVMVoidTypeKind, /**< type with no size */
LLVMHalfTypeKind, /**< 16 bit floating point type */
LLVMFloatTypeKind, /**< 32 bit floating point type */
LLVMDoubleTypeKind, /**< 64 bit floating point type */
LLVMX86_FP80TypeKind, /**< 80 bit floating point type (X87) */
LLVMFP128TypeKind, /**< 128 bit floating point type (112-bit mantissa)*/
LLVMPPC_FP128TypeKind, /**< 128 bit floating point type (two 64-bits) */
LLVMLabelTypeKind, /**< Labels */
LLVMIntegerTypeKind, /**< Arbitrary bit width integers */
LLVMFunctionTypeKind, /**< Functions */
LLVMStructTypeKind, /**< Structures */
LLVMArrayTypeKind, /**< Arrays */
LLVMPointerTypeKind, /**< Pointers */
LLVMVectorTypeKind, /**< SIMD 'packed' format, or other vector type */
LLVMMetadataTypeKind, /**< Metadata */
LLVMX86_MMXTypeKind /**< X86 MMX */
} LLVMTypeKind;
typedef enum {
LLVMExternalLinkage, /**< Externally visible function */
LLVMAvailableExternallyLinkage,
LLVMLinkOnceAnyLinkage, /**< Keep one copy of function when linking (inline)*/
LLVMLinkOnceODRLinkage, /**< Same, but only replaced by something
equivalent. */
LLVMLinkOnceODRAutoHideLinkage, /**< Like LinkOnceODR, but possibly hidden. */
LLVMWeakAnyLinkage, /**< Keep one copy of function when linking (weak) */
LLVMWeakODRLinkage, /**< Same, but only replaced by something
equivalent. */
LLVMAppendingLinkage, /**< Special purpose, only applies to global arrays */
LLVMInternalLinkage, /**< Rename collisions when linking (static
functions) */
LLVMPrivateLinkage, /**< Like Internal, but omit from symbol table */
LLVMDLLImportLinkage, /**< Function to be imported from DLL */
LLVMDLLExportLinkage, /**< Function to be accessible from DLL */
LLVMExternalWeakLinkage,/**< ExternalWeak linkage description */
LLVMGhostLinkage, /**< Obsolete */
LLVMCommonLinkage, /**< Tentative definitions */
LLVMLinkerPrivateLinkage, /**< Like Private, but linker removes. */
LLVMLinkerPrivateWeakLinkage /**< Like LinkerPrivate, but is weak. */
} LLVMLinkage;
typedef enum {
LLVMDefaultVisibility, /**< The GV is visible */
LLVMHiddenVisibility, /**< The GV is hidden */
LLVMProtectedVisibility /**< The GV is protected */
} LLVMVisibility;
typedef enum {
LLVMCCallConv = 0,
LLVMFastCallConv = 8,
LLVMColdCallConv = 9,
LLVMX86StdcallCallConv = 64,
LLVMX86FastcallCallConv = 65
} LLVMCallConv;
typedef enum {
LLVMIntEQ = 32, /**< equal */
LLVMIntNE, /**< not equal */
LLVMIntUGT, /**< unsigned greater than */
LLVMIntUGE, /**< unsigned greater or equal */
LLVMIntULT, /**< unsigned less than */
LLVMIntULE, /**< unsigned less or equal */
LLVMIntSGT, /**< signed greater than */
LLVMIntSGE, /**< signed greater or equal */
LLVMIntSLT, /**< signed less than */
LLVMIntSLE /**< signed less or equal */
} LLVMIntPredicate;
typedef enum {
LLVMRealPredicateFalse, /**< Always false (always folded) */
LLVMRealOEQ, /**< True if ordered and equal */
LLVMRealOGT, /**< True if ordered and greater than */
LLVMRealOGE, /**< True if ordered and greater than or equal */
LLVMRealOLT, /**< True if ordered and less than */
LLVMRealOLE, /**< True if ordered and less than or equal */
LLVMRealONE, /**< True if ordered and operands are unequal */
LLVMRealORD, /**< True if ordered (no nans) */
LLVMRealUNO, /**< True if unordered: isnan(X) | isnan(Y) */
LLVMRealUEQ, /**< True if unordered or equal */
LLVMRealUGT, /**< True if unordered or greater than */
LLVMRealUGE, /**< True if unordered, greater than, or equal */
LLVMRealULT, /**< True if unordered or less than */
LLVMRealULE, /**< True if unordered, less than, or equal */
LLVMRealUNE, /**< True if unordered or not equal */
LLVMRealPredicateTrue /**< Always true (always folded) */
} LLVMRealPredicate;
typedef enum {
LLVMLandingPadCatch, /**< A catch clause */
LLVMLandingPadFilter /**< A filter clause */
} LLVMLandingPadClauseTy;
/**
* @}
*/
void LLVMInitializeCore(LLVMPassRegistryRef R);
/** Deallocate and destroy all ManagedStatic variables.
@see llvm::llvm_shutdown
@see ManagedStatic */
void LLVMShutdown();
/*===-- Error handling ----------------------------------------------------===*/
void LLVMDisposeMessage(char *Message);
/**
* @defgroup LLVMCCoreContext Contexts
*
* Contexts are execution states for the core LLVM IR system.
*
* Most types are tied to a context instance. Multiple contexts can
* exist simultaneously. A single context is not thread safe. However,
* different contexts can execute on different threads simultaneously.
*
* @{
*/
/**
* Create a new context.
*
* Every call to this function should be paired with a call to
* LLVMContextDispose() or the context will leak memory.
*/
LLVMContextRef LLVMContextCreate(void);
/**
* Obtain the global context instance.
*/
LLVMContextRef LLVMGetGlobalContext(void);
/**
* Destroy a context instance.
*
* This should be called for every call to LLVMContextCreate() or memory
* will be leaked.
*/
void LLVMContextDispose(LLVMContextRef C);
unsigned LLVMGetMDKindIDInContext(LLVMContextRef C, const char* Name,
unsigned SLen);
unsigned LLVMGetMDKindID(const char* Name, unsigned SLen);
/**
* @}
*/
/**
* @defgroup LLVMCCoreModule Modules
*
* Modules represent the top-level structure in a LLVM program. An LLVM
* module is effectively a translation unit or a collection of
* translation units merged together.
*
* @{
*/
/**
* Create a new, empty module in the global context.
*
* This is equivalent to calling LLVMModuleCreateWithNameInContext with
* LLVMGetGlobalContext() as the context parameter.
*
* Every invocation should be paired with LLVMDisposeModule() or memory
* will be leaked.
*/
LLVMModuleRef LLVMModuleCreateWithName(const char *ModuleID);
/**
* Create a new, empty module in a specific context.
*
* Every invocation should be paired with LLVMDisposeModule() or memory
* will be leaked.
*/
LLVMModuleRef LLVMModuleCreateWithNameInContext(const char *ModuleID,
LLVMContextRef C);
/**
* Destroy a module instance.
*
* This must be called for every created module or memory will be
* leaked.
*/
void LLVMDisposeModule(LLVMModuleRef M);
/**
* Obtain the data layout for a module.
*
* @see Module::getDataLayout()
*/
const char *LLVMGetDataLayout(LLVMModuleRef M);
/**
* Set the data layout for a module.
*
* @see Module::setDataLayout()
*/
void LLVMSetDataLayout(LLVMModuleRef M, const char *Triple);
/**
* Obtain the target triple for a module.
*
* @see Module::getTargetTriple()
*/
const char *LLVMGetTarget(LLVMModuleRef M);
/**
* Set the target triple for a module.
*
* @see Module::setTargetTriple()
*/
void LLVMSetTarget(LLVMModuleRef M, const char *Triple);
/**
* Dump a representation of a module to stderr.
*
* @see Module::dump()
*/
void LLVMDumpModule(LLVMModuleRef M);
/**
* Print a representation of a module to a file. The ErrorMessage needs to be
* disposed with LLVMDisposeMessage. Returns 0 on success, 1 otherwise.
*
* @see Module::print()
*/
LLVMBool LLVMPrintModuleToFile(LLVMModuleRef M, const char *Filename,
char **ErrorMessage);
/**
* Set inline assembly for a module.
*
* @see Module::setModuleInlineAsm()
*/
void LLVMSetModuleInlineAsm(LLVMModuleRef M, const char *Asm);
/**
* Obtain the context to which this module is associated.
*
* @see Module::getContext()
*/
LLVMContextRef LLVMGetModuleContext(LLVMModuleRef M);
/**
* Obtain a Type from a module by its registered name.
*/
LLVMTypeRef LLVMGetTypeByName(LLVMModuleRef M, const char *Name);
/**
* Obtain the number of operands for named metadata in a module.
*
* @see llvm::Module::getNamedMetadata()
*/
unsigned LLVMGetNamedMetadataNumOperands(LLVMModuleRef M, const char* name);
/**
* Obtain the named metadata operands for a module.
*
* The passed LLVMValueRef pointer should refer to an array of
* LLVMValueRef at least LLVMGetNamedMetadataNumOperands long. This
* array will be populated with the LLVMValueRef instances. Each
* instance corresponds to a llvm::MDNode.
*
* @see llvm::Module::getNamedMetadata()
* @see llvm::MDNode::getOperand()
*/
void LLVMGetNamedMetadataOperands(LLVMModuleRef M, const char* name, LLVMValueRef *Dest);
/**
* Add an operand to named metadata.
*
* @see llvm::Module::getNamedMetadata()
* @see llvm::MDNode::addOperand()
*/
void LLVMAddNamedMetadataOperand(LLVMModuleRef M, const char* name,
LLVMValueRef Val);
/**
* Add a function to a module under a specified name.
*
* @see llvm::Function::Create()
*/
LLVMValueRef LLVMAddFunction(LLVMModuleRef M, const char *Name,
LLVMTypeRef FunctionTy);
/**
* Obtain a Function value from a Module by its name.
*
* The returned value corresponds to a llvm::Function value.
*
* @see llvm::Module::getFunction()
*/
LLVMValueRef LLVMGetNamedFunction(LLVMModuleRef M, const char *Name);
/**
* Obtain an iterator to the first Function in a Module.
*
* @see llvm::Module::begin()
*/
LLVMValueRef LLVMGetFirstFunction(LLVMModuleRef M);
/**
* Obtain an iterator to the last Function in a Module.
*
* @see llvm::Module::end()
*/
LLVMValueRef LLVMGetLastFunction(LLVMModuleRef M);
/**
* Advance a Function iterator to the next Function.
*
* Returns NULL if the iterator was already at the end and there are no more
* functions.
*/
LLVMValueRef LLVMGetNextFunction(LLVMValueRef Fn);
/**
* Decrement a Function iterator to the previous Function.
*
* Returns NULL if the iterator was already at the beginning and there are
* no previous functions.
*/
LLVMValueRef LLVMGetPreviousFunction(LLVMValueRef Fn);
/**
* @}
*/
/**
* @defgroup LLVMCCoreType Types
*
* Types represent the type of a value.
*
* Types are associated with a context instance. The context internally
* deduplicates types so there is only 1 instance of a specific type
* alive at a time. In other words, a unique type is shared among all
* consumers within a context.
*
* A Type in the C API corresponds to llvm::Type.
*
* Types have the following hierarchy:
*
* types:
* integer type
* real type
* function type
* sequence types:
* array type
* pointer type
* vector type
* void type
* label type
* opaque type
*
* @{
*/
/**
* Obtain the enumerated type of a Type instance.
*
* @see llvm::Type:getTypeID()
*/
LLVMTypeKind LLVMGetTypeKind(LLVMTypeRef Ty);
/**
* Whether the type has a known size.
*
* Things that don't have a size are abstract types, labels, and void.a
*
* @see llvm::Type::isSized()
*/
LLVMBool LLVMTypeIsSized(LLVMTypeRef Ty);
/**
* Obtain the context to which this type instance is associated.
*
* @see llvm::Type::getContext()
*/
LLVMContextRef LLVMGetTypeContext(LLVMTypeRef Ty);
/**
* @defgroup LLVMCCoreTypeInt Integer Types
*
* Functions in this section operate on integer types.
*
* @{
*/
/**
* Obtain an integer type from a context with specified bit width.
*/
LLVMTypeRef LLVMInt1TypeInContext(LLVMContextRef C);
LLVMTypeRef LLVMInt8TypeInContext(LLVMContextRef C);
LLVMTypeRef LLVMInt16TypeInContext(LLVMContextRef C);
LLVMTypeRef LLVMInt32TypeInContext(LLVMContextRef C);
LLVMTypeRef LLVMInt64TypeInContext(LLVMContextRef C);
LLVMTypeRef LLVMIntTypeInContext(LLVMContextRef C, unsigned NumBits);
/**
* Obtain an integer type from the global context with a specified bit
* width.
*/
LLVMTypeRef LLVMInt1Type(void);
LLVMTypeRef LLVMInt8Type(void);
LLVMTypeRef LLVMInt16Type(void);
LLVMTypeRef LLVMInt32Type(void);
LLVMTypeRef LLVMInt64Type(void);
LLVMTypeRef LLVMIntType(unsigned NumBits);
unsigned LLVMGetIntTypeWidth(LLVMTypeRef IntegerTy);
/**
* @}
*/
/**
* @defgroup LLVMCCoreTypeFloat Floating Point Types
*
* @{
*/
/**
* Obtain a 16-bit floating point type from a context.
*/
LLVMTypeRef LLVMHalfTypeInContext(LLVMContextRef C);
/**
* Obtain a 32-bit floating point type from a context.
*/
LLVMTypeRef LLVMFloatTypeInContext(LLVMContextRef C);
/**
* Obtain a 64-bit floating point type from a context.
*/
LLVMTypeRef LLVMDoubleTypeInContext(LLVMContextRef C);
/**
* Obtain a 80-bit floating point type (X87) from a context.
*/
LLVMTypeRef LLVMX86FP80TypeInContext(LLVMContextRef C);
/**
* Obtain a 128-bit floating point type (112-bit mantissa) from a
* context.
*/
LLVMTypeRef LLVMFP128TypeInContext(LLVMContextRef C);
/**
* Obtain a 128-bit floating point type (two 64-bits) from a context.
*/
LLVMTypeRef LLVMPPCFP128TypeInContext(LLVMContextRef C);
/**
* Obtain a floating point type from the global context.
*
* These map to the functions in this group of the same name.
*/
LLVMTypeRef LLVMHalfType(void);
LLVMTypeRef LLVMFloatType(void);
LLVMTypeRef LLVMDoubleType(void);
LLVMTypeRef LLVMX86FP80Type(void);
LLVMTypeRef LLVMFP128Type(void);
LLVMTypeRef LLVMPPCFP128Type(void);
/**
* @}
*/
/**
* @defgroup LLVMCCoreTypeFunction Function Types
*
* @{
*/
/**
* Obtain a function type consisting of a specified signature.
*
* The function is defined as a tuple of a return Type, a list of
* parameter types, and whether the function is variadic.
*/
LLVMTypeRef LLVMFunctionType(LLVMTypeRef ReturnType,
LLVMTypeRef *ParamTypes, unsigned ParamCount,
LLVMBool IsVarArg);
/**
* Returns whether a function type is variadic.
*/
LLVMBool LLVMIsFunctionVarArg(LLVMTypeRef FunctionTy);
/**
* Obtain the Type this function Type returns.
*/
LLVMTypeRef LLVMGetReturnType(LLVMTypeRef FunctionTy);
/**
* Obtain the number of parameters this function accepts.
*/
unsigned LLVMCountParamTypes(LLVMTypeRef FunctionTy);
/**
* Obtain the types of a function's parameters.
*
* The Dest parameter should point to a pre-allocated array of
* LLVMTypeRef at least LLVMCountParamTypes() large. On return, the
* first LLVMCountParamTypes() entries in the array will be populated
* with LLVMTypeRef instances.
*
* @param FunctionTy The function type to operate on.
* @param Dest Memory address of an array to be filled with result.
*/
void LLVMGetParamTypes(LLVMTypeRef FunctionTy, LLVMTypeRef *Dest);
/**
* @}
*/
/**
* @defgroup LLVMCCoreTypeStruct Structure Types
*
* These functions relate to LLVMTypeRef instances.
*
* @see llvm::StructType
*
* @{
*/
/**
* Create a new structure type in a context.
*
* A structure is specified by a list of inner elements/types and
* whether these can be packed together.
*
* @see llvm::StructType::create()
*/
LLVMTypeRef LLVMStructTypeInContext(LLVMContextRef C, LLVMTypeRef *ElementTypes,
unsigned ElementCount, LLVMBool Packed);
/**
* Create a new structure type in the global context.
*
* @see llvm::StructType::create()
*/
LLVMTypeRef LLVMStructType(LLVMTypeRef *ElementTypes, unsigned ElementCount,
LLVMBool Packed);
/**
* Create an empty structure in a context having a specified name.
*
* @see llvm::StructType::create()
*/
LLVMTypeRef LLVMStructCreateNamed(LLVMContextRef C, const char *Name);
/**
* Obtain the name of a structure.
*
* @see llvm::StructType::getName()
*/
const char *LLVMGetStructName(LLVMTypeRef Ty);
/**
* Set the contents of a structure type.
*
* @see llvm::StructType::setBody()
*/
void LLVMStructSetBody(LLVMTypeRef StructTy, LLVMTypeRef *ElementTypes,
unsigned ElementCount, LLVMBool Packed);
/**
* Get the number of elements defined inside the structure.
*
* @see llvm::StructType::getNumElements()
*/
unsigned LLVMCountStructElementTypes(LLVMTypeRef StructTy);
/**
* Get the elements within a structure.
*
* The function is passed the address of a pre-allocated array of
* LLVMTypeRef at least LLVMCountStructElementTypes() long. After
* invocation, this array will be populated with the structure's
* elements. The objects in the destination array will have a lifetime
* of the structure type itself, which is the lifetime of the context it
* is contained in.
*/
void LLVMGetStructElementTypes(LLVMTypeRef StructTy, LLVMTypeRef *Dest);
/**
* Determine whether a structure is packed.
*
* @see llvm::StructType::isPacked()
*/
LLVMBool LLVMIsPackedStruct(LLVMTypeRef StructTy);
/**
* Determine whether a structure is opaque.
*
* @see llvm::StructType::isOpaque()
*/
LLVMBool LLVMIsOpaqueStruct(LLVMTypeRef StructTy);
/**
* @}
*/
/**
* @defgroup LLVMCCoreTypeSequential Sequential Types
*
* Sequential types represents "arrays" of types. This is a super class
* for array, vector, and pointer types.
*
* @{
*/
/**
* Obtain the type of elements within a sequential type.
*
* This works on array, vector, and pointer types.
*
* @see llvm::SequentialType::getElementType()
*/
LLVMTypeRef LLVMGetElementType(LLVMTypeRef Ty);
/**
* Create a fixed size array type that refers to a specific type.
*
* The created type will exist in the context that its element type
* exists in.
*
* @see llvm::ArrayType::get()
*/
LLVMTypeRef LLVMArrayType(LLVMTypeRef ElementType, unsigned ElementCount);
/**
* Obtain the length of an array type.
*
* This only works on types that represent arrays.
*
* @see llvm::ArrayType::getNumElements()
*/
unsigned LLVMGetArrayLength(LLVMTypeRef ArrayTy);
/**
* Create a pointer type that points to a defined type.
*
* The created type will exist in the context that its pointee type
* exists in.
*
* @see llvm::PointerType::get()
*/
LLVMTypeRef LLVMPointerType(LLVMTypeRef ElementType, unsigned AddressSpace);
/**
* Obtain the address space of a pointer type.
*
* This only works on types that represent pointers.
*
* @see llvm::PointerType::getAddressSpace()
*/
unsigned LLVMGetPointerAddressSpace(LLVMTypeRef PointerTy);
/**
* Create a vector type that contains a defined type and has a specific
* number of elements.
*
* The created type will exist in the context thats its element type
* exists in.
*
* @see llvm::VectorType::get()
*/
LLVMTypeRef LLVMVectorType(LLVMTypeRef ElementType, unsigned ElementCount);
/**
* Obtain the number of elements in a vector type.
*
* This only works on types that represent vectors.
*
* @see llvm::VectorType::getNumElements()
*/
unsigned LLVMGetVectorSize(LLVMTypeRef VectorTy);
/**
* @}
*/
/**
* @defgroup LLVMCCoreTypeOther Other Types
*
* @{
*/
/**
* Create a void type in a context.
*/
LLVMTypeRef LLVMVoidTypeInContext(LLVMContextRef C);
/**
* Create a label type in a context.
*/
LLVMTypeRef LLVMLabelTypeInContext(LLVMContextRef C);
/**
* Create a X86 MMX type in a context.
*/
LLVMTypeRef LLVMX86MMXTypeInContext(LLVMContextRef C);
/**
* These are similar to the above functions except they operate on the
* global context.
*/
LLVMTypeRef LLVMVoidType(void);
LLVMTypeRef LLVMLabelType(void);
LLVMTypeRef LLVMX86MMXType(void);
/**
* @}
*/
/**
* @}
*/
/**
* @defgroup LLVMCCoreValues Values
*
* The bulk of LLVM's object model consists of values, which comprise a very
* rich type hierarchy.
*
* LLVMValueRef essentially represents llvm::Value. There is a rich
* hierarchy of classes within this type. Depending on the instance
* obtained, not all APIs are available.
*
* Callers can determine the type of a LLVMValueRef by calling the
* LLVMIsA* family of functions (e.g. LLVMIsAArgument()). These
* functions are defined by a macro, so it isn't obvious which are
* available by looking at the Doxygen source code. Instead, look at the
* source definition of LLVM_FOR_EACH_VALUE_SUBCLASS and note the list
* of value names given. These value names also correspond to classes in
* the llvm::Value hierarchy.
*
* @{
*/
#define LLVM_FOR_EACH_VALUE_SUBCLASS(macro) \
macro(Argument) \
macro(BasicBlock) \
macro(InlineAsm) \
macro(MDNode) \
macro(MDString) \
macro(User) \
macro(Constant) \
macro(BlockAddress) \
macro(ConstantAggregateZero) \
macro(ConstantArray) \
macro(ConstantExpr) \
macro(ConstantFP) \
macro(ConstantInt) \
macro(ConstantPointerNull) \
macro(ConstantStruct) \
macro(ConstantVector) \
macro(GlobalValue) \
macro(Function) \
macro(GlobalAlias) \
macro(GlobalVariable) \
macro(UndefValue) \
macro(Instruction) \
macro(BinaryOperator) \
macro(CallInst) \
macro(IntrinsicInst) \
macro(DbgInfoIntrinsic) \
macro(DbgDeclareInst) \
macro(MemIntrinsic) \
macro(MemCpyInst) \
macro(MemMoveInst) \
macro(MemSetInst) \
macro(CmpInst) \
macro(FCmpInst) \
macro(ICmpInst) \
macro(ExtractElementInst) \
macro(GetElementPtrInst) \
macro(InsertElementInst) \
macro(InsertValueInst) \
macro(LandingPadInst) \
macro(PHINode) \
macro(SelectInst) \
macro(ShuffleVectorInst) \
macro(StoreInst) \
macro(TerminatorInst) \
macro(BranchInst) \
macro(IndirectBrInst) \
macro(InvokeInst) \
macro(ReturnInst) \
macro(SwitchInst) \
macro(UnreachableInst) \
macro(ResumeInst) \
macro(UnaryInstruction) \
macro(AllocaInst) \
macro(CastInst) \
macro(BitCastInst) \
macro(FPExtInst) \
macro(FPToSIInst) \
macro(FPToUIInst) \
macro(FPTruncInst) \
macro(IntToPtrInst) \
macro(PtrToIntInst) \
macro(SExtInst) \
macro(SIToFPInst) \
macro(TruncInst) \
macro(UIToFPInst) \
macro(ZExtInst) \
macro(ExtractValueInst) \
macro(LoadInst) \
macro(VAArgInst)
/**
* @defgroup LLVMCCoreValueGeneral General APIs
*
* Functions in this section work on all LLVMValueRef instances,
* regardless of their sub-type. They correspond to functions available
* on llvm::Value.
*
* @{
*/
/**
* Obtain the type of a value.
*
* @see llvm::Value::getType()
*/
LLVMTypeRef LLVMTypeOf(LLVMValueRef Val);
/**
* Obtain the string name of a value.
*
* @see llvm::Value::getName()
*/
const char *LLVMGetValueName(LLVMValueRef Val);
/**
* Set the string name of a value.
*
* @see llvm::Value::setName()
*/
void LLVMSetValueName(LLVMValueRef Val, const char *Name);
/**
* Dump a representation of a value to stderr.
*
* @see llvm::Value::dump()
*/
void LLVMDumpValue(LLVMValueRef Val);
/**
* Replace all uses of a value with another one.
*
* @see llvm::Value::replaceAllUsesWith()
*/
void LLVMReplaceAllUsesWith(LLVMValueRef OldVal, LLVMValueRef NewVal);
/**
* Determine whether the specified constant instance is constant.
*/
LLVMBool LLVMIsConstant(LLVMValueRef Val);
/**
* Determine whether a value instance is undefined.
*/
LLVMBool LLVMIsUndef(LLVMValueRef Val);
/**
* Convert value instances between types.
*
* Internally, a LLVMValueRef is "pinned" to a specific type. This
* series of functions allows you to cast an instance to a specific
* type.
*
* If the cast is not valid for the specified type, NULL is returned.
*
* @see llvm::dyn_cast_or_null<>
*/
#define LLVM_DECLARE_VALUE_CAST(name) \
LLVMValueRef LLVMIsA##name(LLVMValueRef Val);
LLVM_FOR_EACH_VALUE_SUBCLASS(LLVM_DECLARE_VALUE_CAST)
/**
* @}
*/
/**
* @defgroup LLVMCCoreValueUses Usage
*
* This module defines functions that allow you to inspect the uses of a
* LLVMValueRef.
*
* It is possible to obtain a LLVMUseRef for any LLVMValueRef instance.
* Each LLVMUseRef (which corresponds to a llvm::Use instance) holds a
* llvm::User and llvm::Value.
*
* @{
*/
/**
* Obtain the first use of a value.
*
* Uses are obtained in an iterator fashion. First, call this function
* to obtain a reference to the first use. Then, call LLVMGetNextUse()
* on that instance and all subsequently obtained instances until
* LLVMGetNextUse() returns NULL.
*
* @see llvm::Value::use_begin()
*/
LLVMUseRef LLVMGetFirstUse(LLVMValueRef Val);
/**
* Obtain the next use of a value.
*
* This effectively advances the iterator. It returns NULL if you are on
* the final use and no more are available.
*/
LLVMUseRef LLVMGetNextUse(LLVMUseRef U);
/**
* Obtain the user value for a user.
*
* The returned value corresponds to a llvm::User type.
*
* @see llvm::Use::getUser()
*/
LLVMValueRef LLVMGetUser(LLVMUseRef U);
/**
* Obtain the value this use corresponds to.
*
* @see llvm::Use::get().
*/
LLVMValueRef LLVMGetUsedValue(LLVMUseRef U);
/**
* @}
*/
/**
* @defgroup LLVMCCoreValueUser User value
*
* Function in this group pertain to LLVMValueRef instances that descent
* from llvm::User. This includes constants, instructions, and
* operators.
*
* @{
*/
/**
* Obtain an operand at a specific index in a llvm::User value.
*
* @see llvm::User::getOperand()
*/
LLVMValueRef LLVMGetOperand(LLVMValueRef Val, unsigned Index);
/**
* Set an operand at a specific index in a llvm::User value.
*
* @see llvm::User::setOperand()
*/
void LLVMSetOperand(LLVMValueRef User, unsigned Index, LLVMValueRef Val);
/**
* Obtain the number of operands in a llvm::User value.
*
* @see llvm::User::getNumOperands()
*/
int LLVMGetNumOperands(LLVMValueRef Val);
/**
* @}
*/
/**
* @defgroup LLVMCCoreValueConstant Constants
*
* This section contains APIs for interacting with LLVMValueRef that
* correspond to llvm::Constant instances.
*
* These functions will work for any LLVMValueRef in the llvm::Constant
* class hierarchy.
*
* @{
*/
/**
* Obtain a constant value referring to the null instance of a type.
*
* @see llvm::Constant::getNullValue()
*/
LLVMValueRef LLVMConstNull(LLVMTypeRef Ty); /* all zeroes */
/**
* Obtain a constant value referring to the instance of a type
* consisting of all ones.
*
* This is only valid for integer types.
*
* @see llvm::Constant::getAllOnesValue()
*/
LLVMValueRef LLVMConstAllOnes(LLVMTypeRef Ty);
/**
* Obtain a constant value referring to an undefined value of a type.
*
* @see llvm::UndefValue::get()
*/
LLVMValueRef LLVMGetUndef(LLVMTypeRef Ty);
/**
* Determine whether a value instance is null.
*
* @see llvm::Constant::isNullValue()
*/
LLVMBool LLVMIsNull(LLVMValueRef Val);
/**
* Obtain a constant that is a constant pointer pointing to NULL for a
* specified type.
*/
LLVMValueRef LLVMConstPointerNull(LLVMTypeRef Ty);
/**
* @defgroup LLVMCCoreValueConstantScalar Scalar constants
*
* Functions in this group model LLVMValueRef instances that correspond
* to constants referring to scalar types.
*
* For integer types, the LLVMTypeRef parameter should correspond to a
* llvm::IntegerType instance and the returned LLVMValueRef will
* correspond to a llvm::ConstantInt.
*
* For floating point types, the LLVMTypeRef returned corresponds to a
* llvm::ConstantFP.
*
* @{
*/
/**
* Obtain a constant value for an integer type.
*
* The returned value corresponds to a llvm::ConstantInt.
*
* @see llvm::ConstantInt::get()
*
* @param IntTy Integer type to obtain value of.
* @param N The value the returned instance should refer to.
* @param SignExtend Whether to sign extend the produced value.
*/
LLVMValueRef LLVMConstInt(LLVMTypeRef IntTy, unsigned long long N,
LLVMBool SignExtend);
/**
* Obtain a constant value for an integer of arbitrary precision.
*
* @see llvm::ConstantInt::get()
*/
LLVMValueRef LLVMConstIntOfArbitraryPrecision(LLVMTypeRef IntTy,
unsigned NumWords,
const uint64_t Words[]);
/**
* Obtain a constant value for an integer parsed from a string.
*
* A similar API, LLVMConstIntOfStringAndSize is also available. If the
* string's length is available, it is preferred to call that function
* instead.
*
* @see llvm::ConstantInt::get()
*/
LLVMValueRef LLVMConstIntOfString(LLVMTypeRef IntTy, const char *Text,
uint8_t Radix);
/**
* Obtain a constant value for an integer parsed from a string with
* specified length.
*
* @see llvm::ConstantInt::get()
*/
LLVMValueRef LLVMConstIntOfStringAndSize(LLVMTypeRef IntTy, const char *Text,
unsigned SLen, uint8_t Radix);
/**
* Obtain a constant value referring to a double floating point value.
*/
LLVMValueRef LLVMConstReal(LLVMTypeRef RealTy, double N);
/**
* Obtain a constant for a floating point value parsed from a string.
*
* A similar API, LLVMConstRealOfStringAndSize is also available. It
* should be used if the input string's length is known.
*/
LLVMValueRef LLVMConstRealOfString(LLVMTypeRef RealTy, const char *Text);
/**
* Obtain a constant for a floating point value parsed from a string.
*/
LLVMValueRef LLVMConstRealOfStringAndSize(LLVMTypeRef RealTy, const char *Text,
unsigned SLen);
/**
* Obtain the zero extended value for an integer constant value.
*
* @see llvm::ConstantInt::getZExtValue()
*/
unsigned long long LLVMConstIntGetZExtValue(LLVMValueRef ConstantVal);
/**
* Obtain the sign extended value for an integer constant value.
*
* @see llvm::ConstantInt::getSExtValue()
*/
long long LLVMConstIntGetSExtValue(LLVMValueRef ConstantVal);
/**
* @}
*/
/**
* @defgroup LLVMCCoreValueConstantComposite Composite Constants
*
* Functions in this group operate on composite constants.
*
* @{
*/
/**
* Create a ConstantDataSequential and initialize it with a string.
*
* @see llvm::ConstantDataArray::getString()
*/
LLVMValueRef LLVMConstStringInContext(LLVMContextRef C, const char *Str,
unsigned Length, LLVMBool DontNullTerminate);
/**
* Create a ConstantDataSequential with string content in the global context.
*
* This is the same as LLVMConstStringInContext except it operates on the
* global context.
*
* @see LLVMConstStringInContext()
* @see llvm::ConstantDataArray::getString()
*/
LLVMValueRef LLVMConstString(const char *Str, unsigned Length,
LLVMBool DontNullTerminate);
/**
* Create an anonymous ConstantStruct with the specified values.
*
* @see llvm::ConstantStruct::getAnon()
*/
LLVMValueRef LLVMConstStructInContext(LLVMContextRef C,
LLVMValueRef *ConstantVals,
unsigned Count, LLVMBool Packed);
/**
* Create a ConstantStruct in the global Context.
*
* This is the same as LLVMConstStructInContext except it operates on the
* global Context.
*
* @see LLVMConstStructInContext()
*/
LLVMValueRef LLVMConstStruct(LLVMValueRef *ConstantVals, unsigned Count,
LLVMBool Packed);
/**
* Create a ConstantArray from values.
*
* @see llvm::ConstantArray::get()
*/
LLVMValueRef LLVMConstArray(LLVMTypeRef ElementTy,
LLVMValueRef *ConstantVals, unsigned Length);
/**
* Create a non-anonymous ConstantStruct from values.
*
* @see llvm::ConstantStruct::get()
*/
LLVMValueRef LLVMConstNamedStruct(LLVMTypeRef StructTy,
LLVMValueRef *ConstantVals,
unsigned Count);
/**
* Create a ConstantVector from values.
*
* @see llvm::ConstantVector::get()
*/
LLVMValueRef LLVMConstVector(LLVMValueRef *ScalarConstantVals, unsigned Size);
/**
* @}
*/
/**
* @defgroup LLVMCCoreValueConstantExpressions Constant Expressions
*
* Functions in this group correspond to APIs on llvm::ConstantExpr.
*
* @see llvm::ConstantExpr.
*
* @{
*/
LLVMOpcode LLVMGetConstOpcode(LLVMValueRef ConstantVal);
LLVMValueRef LLVMAlignOf(LLVMTypeRef Ty);
LLVMValueRef LLVMSizeOf(LLVMTypeRef Ty);
LLVMValueRef LLVMConstNeg(LLVMValueRef ConstantVal);
LLVMValueRef LLVMConstNSWNeg(LLVMValueRef ConstantVal);
LLVMValueRef LLVMConstNUWNeg(LLVMValueRef ConstantVal);
LLVMValueRef LLVMConstFNeg(LLVMValueRef ConstantVal);
LLVMValueRef LLVMConstNot(LLVMValueRef ConstantVal);
LLVMValueRef LLVMConstAdd(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstNSWAdd(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstNUWAdd(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstFAdd(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstSub(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstNSWSub(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstNUWSub(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstFSub(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstMul(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstNSWMul(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstNUWMul(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstFMul(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstUDiv(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstSDiv(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstExactSDiv(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstFDiv(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstURem(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstSRem(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstFRem(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstAnd(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstOr(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstXor(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstICmp(LLVMIntPredicate Predicate,
LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstFCmp(LLVMRealPredicate Predicate,
LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstShl(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstLShr(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstAShr(LLVMValueRef LHSConstant, LLVMValueRef RHSConstant);
LLVMValueRef LLVMConstGEP(LLVMValueRef ConstantVal,
LLVMValueRef *ConstantIndices, unsigned NumIndices);
LLVMValueRef LLVMConstInBoundsGEP(LLVMValueRef ConstantVal,
LLVMValueRef *ConstantIndices,
unsigned NumIndices);
LLVMValueRef LLVMConstTrunc(LLVMValueRef ConstantVal, LLVMTypeRef ToType);
LLVMValueRef LLVMConstSExt(LLVMValueRef ConstantVal, LLVMTypeRef ToType);
LLVMValueRef LLVMConstZExt(LLVMValueRef ConstantVal, LLVMTypeRef ToType);
LLVMValueRef LLVMConstFPTrunc(LLVMValueRef ConstantVal, LLVMTypeRef ToType);
LLVMValueRef LLVMConstFPExt(LLVMValueRef ConstantVal, LLVMTypeRef ToType);
LLVMValueRef LLVMConstUIToFP(LLVMValueRef ConstantVal, LLVMTypeRef ToType);
LLVMValueRef LLVMConstSIToFP(LLVMValueRef ConstantVal, LLVMTypeRef ToType);
LLVMValueRef LLVMConstFPToUI(LLVMValueRef ConstantVal, LLVMTypeRef ToType);
LLVMValueRef LLVMConstFPToSI(LLVMValueRef ConstantVal, LLVMTypeRef ToType);
LLVMValueRef LLVMConstPtrToInt(LLVMValueRef ConstantVal, LLVMTypeRef ToType);
LLVMValueRef LLVMConstIntToPtr(LLVMValueRef ConstantVal, LLVMTypeRef ToType);
LLVMValueRef LLVMConstBitCast(LLVMValueRef ConstantVal, LLVMTypeRef ToType);
LLVMValueRef LLVMConstZExtOrBitCast(LLVMValueRef ConstantVal,
LLVMTypeRef ToType);
LLVMValueRef LLVMConstSExtOrBitCast(LLVMValueRef ConstantVal,
LLVMTypeRef ToType);
LLVMValueRef LLVMConstTruncOrBitCast(LLVMValueRef ConstantVal,
LLVMTypeRef ToType);
LLVMValueRef LLVMConstPointerCast(LLVMValueRef ConstantVal,
LLVMTypeRef ToType);
LLVMValueRef LLVMConstIntCast(LLVMValueRef ConstantVal, LLVMTypeRef ToType,
LLVMBool isSigned);
LLVMValueRef LLVMConstFPCast(LLVMValueRef ConstantVal, LLVMTypeRef ToType);
LLVMValueRef LLVMConstSelect(LLVMValueRef ConstantCondition,
LLVMValueRef ConstantIfTrue,
LLVMValueRef ConstantIfFalse);
LLVMValueRef LLVMConstExtractElement(LLVMValueRef VectorConstant,
LLVMValueRef IndexConstant);
LLVMValueRef LLVMConstInsertElement(LLVMValueRef VectorConstant,
LLVMValueRef ElementValueConstant,
LLVMValueRef IndexConstant);
LLVMValueRef LLVMConstShuffleVector(LLVMValueRef VectorAConstant,
LLVMValueRef VectorBConstant,
LLVMValueRef MaskConstant);
LLVMValueRef LLVMConstExtractValue(LLVMValueRef AggConstant, unsigned *IdxList,
unsigned NumIdx);
LLVMValueRef LLVMConstInsertValue(LLVMValueRef AggConstant,
LLVMValueRef ElementValueConstant,
unsigned *IdxList, unsigned NumIdx);
LLVMValueRef LLVMConstInlineAsm(LLVMTypeRef Ty,
const char *AsmString, const char *Constraints,
LLVMBool HasSideEffects, LLVMBool IsAlignStack);
LLVMValueRef LLVMBlockAddress(LLVMValueRef F, LLVMBasicBlockRef BB);
/**
* @}
*/
/**
* @defgroup LLVMCCoreValueConstantGlobals Global Values
*
* This group contains functions that operate on global values. Functions in
* this group relate to functions in the llvm::GlobalValue class tree.
*
* @see llvm::GlobalValue
*
* @{
*/
LLVMModuleRef LLVMGetGlobalParent(LLVMValueRef Global);
LLVMBool LLVMIsDeclaration(LLVMValueRef Global);
LLVMLinkage LLVMGetLinkage(LLVMValueRef Global);
void LLVMSetLinkage(LLVMValueRef Global, LLVMLinkage Linkage);
const char *LLVMGetSection(LLVMValueRef Global);
void LLVMSetSection(LLVMValueRef Global, const char *Section);
LLVMVisibility LLVMGetVisibility(LLVMValueRef Global);
void LLVMSetVisibility(LLVMValueRef Global, LLVMVisibility Viz);
unsigned LLVMGetAlignment(LLVMValueRef Global);
void LLVMSetAlignment(LLVMValueRef Global, unsigned Bytes);
/**
* @defgroup LLVMCoreValueConstantGlobalVariable Global Variables
*
* This group contains functions that operate on global variable values.
*
* @see llvm::GlobalVariable
*
* @{
*/
LLVMValueRef LLVMAddGlobal(LLVMModuleRef M, LLVMTypeRef Ty, const char *Name);
LLVMValueRef LLVMAddGlobalInAddressSpace(LLVMModuleRef M, LLVMTypeRef Ty,
const char *Name,
unsigned AddressSpace);
LLVMValueRef LLVMGetNamedGlobal(LLVMModuleRef M, const char *Name);
LLVMValueRef LLVMGetFirstGlobal(LLVMModuleRef M);
LLVMValueRef LLVMGetLastGlobal(LLVMModuleRef M);
LLVMValueRef LLVMGetNextGlobal(LLVMValueRef GlobalVar);
LLVMValueRef LLVMGetPreviousGlobal(LLVMValueRef GlobalVar);
void LLVMDeleteGlobal(LLVMValueRef GlobalVar);
LLVMValueRef LLVMGetInitializer(LLVMValueRef GlobalVar);
void LLVMSetInitializer(LLVMValueRef GlobalVar, LLVMValueRef ConstantVal);
LLVMBool LLVMIsThreadLocal(LLVMValueRef GlobalVar);
void LLVMSetThreadLocal(LLVMValueRef GlobalVar, LLVMBool IsThreadLocal);
LLVMBool LLVMIsGlobalConstant(LLVMValueRef GlobalVar);
void LLVMSetGlobalConstant(LLVMValueRef GlobalVar, LLVMBool IsConstant);
/**
* @}
*/
/**
* @defgroup LLVMCoreValueConstantGlobalAlias Global Aliases
*
* This group contains function that operate on global alias values.
*
* @see llvm::GlobalAlias
*
* @{
*/
LLVMValueRef LLVMAddAlias(LLVMModuleRef M, LLVMTypeRef Ty, LLVMValueRef Aliasee,
const char *Name);
/**
* @}
*/
/**
* @defgroup LLVMCCoreValueFunction Function values
*
* Functions in this group operate on LLVMValueRef instances that
* correspond to llvm::Function instances.
*
* @see llvm::Function
*
* @{
*/
/**
* Remove a function from its containing module and deletes it.
*
* @see llvm::Function::eraseFromParent()
*/
void LLVMDeleteFunction(LLVMValueRef Fn);
/**
* Obtain the ID number from a function instance.
*
* @see llvm::Function::getIntrinsicID()
*/
unsigned LLVMGetIntrinsicID(LLVMValueRef Fn);
/**
* Obtain the calling function of a function.
*
* The returned value corresponds to the LLVMCallConv enumeration.
*
* @see llvm::Function::getCallingConv()
*/
unsigned LLVMGetFunctionCallConv(LLVMValueRef Fn);
/**
* Set the calling convention of a function.
*
* @see llvm::Function::setCallingConv()
*
* @param Fn Function to operate on
* @param CC LLVMCallConv to set calling convention to
*/
void LLVMSetFunctionCallConv(LLVMValueRef Fn, unsigned CC);
/**
* Obtain the name of the garbage collector to use during code
* generation.
*
* @see llvm::Function::getGC()
*/
const char *LLVMGetGC(LLVMValueRef Fn);
/**
* Define the garbage collector to use during code generation.
*
* @see llvm::Function::setGC()
*/
void LLVMSetGC(LLVMValueRef Fn, const char *Name);
/**
* Add an attribute to a function.
*
* @see llvm::Function::addAttribute()
*/
void LLVMAddFunctionAttr(LLVMValueRef Fn, LLVMAttribute PA);
/**
* Obtain an attribute from a function.
*
* @see llvm::Function::getAttributes()
*/
LLVMAttribute LLVMGetFunctionAttr(LLVMValueRef Fn);
/**
* Remove an attribute from a function.
*/
void LLVMRemoveFunctionAttr(LLVMValueRef Fn, LLVMAttribute PA);
/**
* @defgroup LLVMCCoreValueFunctionParameters Function Parameters
*
* Functions in this group relate to arguments/parameters on functions.
*
* Functions in this group expect LLVMValueRef instances that correspond
* to llvm::Function instances.
*
* @{
*/
/**
* Obtain the number of parameters in a function.
*
* @see llvm::Function::arg_size()
*/
unsigned LLVMCountParams(LLVMValueRef Fn);
/**
* Obtain the parameters in a function.
*
* The takes a pointer to a pre-allocated array of LLVMValueRef that is
* at least LLVMCountParams() long. This array will be filled with
* LLVMValueRef instances which correspond to the parameters the
* function receives. Each LLVMValueRef corresponds to a llvm::Argument
* instance.
*
* @see llvm::Function::arg_begin()
*/
void LLVMGetParams(LLVMValueRef Fn, LLVMValueRef *Params);
/**
* Obtain the parameter at the specified index.
*
* Parameters are indexed from 0.
*
* @see llvm::Function::arg_begin()
*/
LLVMValueRef LLVMGetParam(LLVMValueRef Fn, unsigned Index);
/**
* Obtain the function to which this argument belongs.
*
* Unlike other functions in this group, this one takes a LLVMValueRef
* that corresponds to a llvm::Attribute.
*
* The returned LLVMValueRef is the llvm::Function to which this
* argument belongs.
*/
LLVMValueRef LLVMGetParamParent(LLVMValueRef Inst);
/**
* Obtain the first parameter to a function.
*
* @see llvm::Function::arg_begin()
*/
LLVMValueRef LLVMGetFirstParam(LLVMValueRef Fn);
/**
* Obtain the last parameter to a function.
*
* @see llvm::Function::arg_end()
*/
LLVMValueRef LLVMGetLastParam(LLVMValueRef Fn);
/**
* Obtain the next parameter to a function.
*
* This takes a LLVMValueRef obtained from LLVMGetFirstParam() (which is
* actually a wrapped iterator) and obtains the next parameter from the
* underlying iterator.
*/
LLVMValueRef LLVMGetNextParam(LLVMValueRef Arg);
/**
* Obtain the previous parameter to a function.
*
* This is the opposite of LLVMGetNextParam().
*/
LLVMValueRef LLVMGetPreviousParam(LLVMValueRef Arg);
/**
* Add an attribute to a function argument.
*
* @see llvm::Argument::addAttr()
*/
void LLVMAddAttribute(LLVMValueRef Arg, LLVMAttribute PA);
/**
* Remove an attribute from a function argument.
*
* @see llvm::Argument::removeAttr()
*/
void LLVMRemoveAttribute(LLVMValueRef Arg, LLVMAttribute PA);
/**
* Get an attribute from a function argument.
*/
LLVMAttribute LLVMGetAttribute(LLVMValueRef Arg);
/**
* Set the alignment for a function parameter.
*
* @see llvm::Argument::addAttr()
* @see llvm::AttrBuilder::addAlignmentAttr()
*/
void LLVMSetParamAlignment(LLVMValueRef Arg, unsigned align);
/**
* @}
*/
/**
* @}
*/
/**
* @}
*/
/**
* @}
*/
/**
* @defgroup LLVMCCoreValueMetadata Metadata
*
* @{
*/
/**
* Obtain a MDString value from a context.
*
* The returned instance corresponds to the llvm::MDString class.
*
* The instance is specified by string data of a specified length. The
* string content is copied, so the backing memory can be freed after
* this function returns.
*/
LLVMValueRef LLVMMDStringInContext(LLVMContextRef C, const char *Str,
unsigned SLen);
/**
* Obtain a MDString value from the global context.
*/
LLVMValueRef LLVMMDString(const char *Str, unsigned SLen);
/**
* Obtain a MDNode value from a context.
*
* The returned value corresponds to the llvm::MDNode class.
*/
LLVMValueRef LLVMMDNodeInContext(LLVMContextRef C, LLVMValueRef *Vals,
unsigned Count);
/**
* Obtain a MDNode value from the global context.
*/
LLVMValueRef LLVMMDNode(LLVMValueRef *Vals, unsigned Count);
/**
* Obtain the underlying string from a MDString value.
*
* @param V Instance to obtain string from.
* @param Len Memory address which will hold length of returned string.
* @return String data in MDString.
*/
const char *LLVMGetMDString(LLVMValueRef V, unsigned* Len);
/**
* Obtain the number of operands from an MDNode value.
*
* @param V MDNode to get number of operands from.
* @return Number of operands of the MDNode.
*/
unsigned LLVMGetMDNodeNumOperands(LLVMValueRef V);
/**
* Obtain the given MDNode's operands.
*
* The passed LLVMValueRef pointer should point to enough memory to hold all of
* the operands of the given MDNode (see LLVMGetMDNodeNumOperands) as
* LLVMValueRefs. This memory will be populated with the LLVMValueRefs of the
* MDNode's operands.
*
* @param V MDNode to get the operands from.
* @param Dest Destination array for operands.
*/
void LLVMGetMDNodeOperands(LLVMValueRef V, LLVMValueRef *Dest);
/**
* @}
*/
/**
* @defgroup LLVMCCoreValueBasicBlock Basic Block
*
* A basic block represents a single entry single exit section of code.
* Basic blocks contain a list of instructions which form the body of
* the block.
*
* Basic blocks belong to functions. They have the type of label.
*
* Basic blocks are themselves values. However, the C API models them as
* LLVMBasicBlockRef.
*
* @see llvm::BasicBlock
*
* @{
*/
/**
* Convert a basic block instance to a value type.
*/
LLVMValueRef LLVMBasicBlockAsValue(LLVMBasicBlockRef BB);
/**
* Determine whether a LLVMValueRef is itself a basic block.
*/
LLVMBool LLVMValueIsBasicBlock(LLVMValueRef Val);
/**
* Convert a LLVMValueRef to a LLVMBasicBlockRef instance.
*/
LLVMBasicBlockRef LLVMValueAsBasicBlock(LLVMValueRef Val);
/**
* Obtain the function to which a basic block belongs.
*
* @see llvm::BasicBlock::getParent()
*/
LLVMValueRef LLVMGetBasicBlockParent(LLVMBasicBlockRef BB);
/**
* Obtain the terminator instruction for a basic block.
*
* If the basic block does not have a terminator (it is not well-formed
* if it doesn't), then NULL is returned.
*
* The returned LLVMValueRef corresponds to a llvm::TerminatorInst.
*
* @see llvm::BasicBlock::getTerminator()
*/
LLVMValueRef LLVMGetBasicBlockTerminator(LLVMBasicBlockRef BB);
/**
* Obtain the number of basic blocks in a function.
*
* @param Fn Function value to operate on.
*/
unsigned LLVMCountBasicBlocks(LLVMValueRef Fn);
/**
* Obtain all of the basic blocks in a function.
*
* This operates on a function value. The BasicBlocks parameter is a
* pointer to a pre-allocated array of LLVMBasicBlockRef of at least
* LLVMCountBasicBlocks() in length. This array is populated with
* LLVMBasicBlockRef instances.
*/
void LLVMGetBasicBlocks(LLVMValueRef Fn, LLVMBasicBlockRef *BasicBlocks);
/**
* Obtain the first basic block in a function.
*
* The returned basic block can be used as an iterator. You will likely
* eventually call into LLVMGetNextBasicBlock() with it.
*
* @see llvm::Function::begin()
*/
LLVMBasicBlockRef LLVMGetFirstBasicBlock(LLVMValueRef Fn);
/**
* Obtain the last basic block in a function.
*
* @see llvm::Function::end()
*/
LLVMBasicBlockRef LLVMGetLastBasicBlock(LLVMValueRef Fn);
/**
* Advance a basic block iterator.
*/
LLVMBasicBlockRef LLVMGetNextBasicBlock(LLVMBasicBlockRef BB);
/**
* Go backwards in a basic block iterator.
*/
LLVMBasicBlockRef LLVMGetPreviousBasicBlock(LLVMBasicBlockRef BB);
/**
* Obtain the basic block that corresponds to the entry point of a
* function.
*
* @see llvm::Function::getEntryBlock()
*/
LLVMBasicBlockRef LLVMGetEntryBasicBlock(LLVMValueRef Fn);
/**
* Append a basic block to the end of a function.
*
* @see llvm::BasicBlock::Create()
*/
LLVMBasicBlockRef LLVMAppendBasicBlockInContext(LLVMContextRef C,
LLVMValueRef Fn,
const char *Name);
/**
* Append a basic block to the end of a function using the global
* context.
*
* @see llvm::BasicBlock::Create()
*/
LLVMBasicBlockRef LLVMAppendBasicBlock(LLVMValueRef Fn, const char *Name);
/**
* Insert a basic block in a function before another basic block.
*
* The function to add to is determined by the function of the
* passed basic block.
*
* @see llvm::BasicBlock::Create()
*/
LLVMBasicBlockRef LLVMInsertBasicBlockInContext(LLVMContextRef C,
LLVMBasicBlockRef BB,
const char *Name);
/**
* Insert a basic block in a function using the global context.
*
* @see llvm::BasicBlock::Create()
*/
LLVMBasicBlockRef LLVMInsertBasicBlock(LLVMBasicBlockRef InsertBeforeBB,
const char *Name);
/**
* Remove a basic block from a function and delete it.
*
* This deletes the basic block from its containing function and deletes
* the basic block itself.
*
* @see llvm::BasicBlock::eraseFromParent()
*/
void LLVMDeleteBasicBlock(LLVMBasicBlockRef BB);
/**
* Remove a basic block from a function.
*
* This deletes the basic block from its containing function but keep
* the basic block alive.
*
* @see llvm::BasicBlock::removeFromParent()
*/
void LLVMRemoveBasicBlockFromParent(LLVMBasicBlockRef BB);
/**
* Move a basic block to before another one.
*
* @see llvm::BasicBlock::moveBefore()
*/
void LLVMMoveBasicBlockBefore(LLVMBasicBlockRef BB, LLVMBasicBlockRef MovePos);
/**
* Move a basic block to after another one.
*
* @see llvm::BasicBlock::moveAfter()
*/
void LLVMMoveBasicBlockAfter(LLVMBasicBlockRef BB, LLVMBasicBlockRef MovePos);
/**
* Obtain the first instruction in a basic block.
*
* The returned LLVMValueRef corresponds to a llvm::Instruction
* instance.
*/
LLVMValueRef LLVMGetFirstInstruction(LLVMBasicBlockRef BB);
/**
* Obtain the last instruction in a basic block.
*
* The returned LLVMValueRef corresponds to a LLVM:Instruction.
*/
LLVMValueRef LLVMGetLastInstruction(LLVMBasicBlockRef BB);
/**
* @}
*/
/**
* @defgroup LLVMCCoreValueInstruction Instructions
*
* Functions in this group relate to the inspection and manipulation of
* individual instructions.
*
* In the C++ API, an instruction is modeled by llvm::Instruction. This
* class has a large number of descendents. llvm::Instruction is a
* llvm::Value and in the C API, instructions are modeled by
* LLVMValueRef.
*
* This group also contains sub-groups which operate on specific
* llvm::Instruction types, e.g. llvm::CallInst.
*
* @{
*/
/**
* Determine whether an instruction has any metadata attached.
*/
int LLVMHasMetadata(LLVMValueRef Val);
/**
* Return metadata associated with an instruction value.
*/
LLVMValueRef LLVMGetMetadata(LLVMValueRef Val, unsigned KindID);
/**
* Set metadata associated with an instruction value.
*/
void LLVMSetMetadata(LLVMValueRef Val, unsigned KindID, LLVMValueRef Node);
/**
* Obtain the basic block to which an instruction belongs.
*
* @see llvm::Instruction::getParent()
*/
LLVMBasicBlockRef LLVMGetInstructionParent(LLVMValueRef Inst);
/**
* Obtain the instruction that occurs after the one specified.
*
* The next instruction will be from the same basic block.
*
* If this is the last instruction in a basic block, NULL will be
* returned.
*/
LLVMValueRef LLVMGetNextInstruction(LLVMValueRef Inst);
/**
* Obtain the instruction that occurred before this one.
*
* If the instruction is the first instruction in a basic block, NULL
* will be returned.
*/
LLVMValueRef LLVMGetPreviousInstruction(LLVMValueRef Inst);
/**
* Remove and delete an instruction.
*
* The instruction specified is removed from its containing building
* block and then deleted.
*
* @see llvm::Instruction::eraseFromParent()
*/
void LLVMInstructionEraseFromParent(LLVMValueRef Inst);
/**
* Obtain the code opcode for an individual instruction.
*
* @see llvm::Instruction::getOpCode()
*/
LLVMOpcode LLVMGetInstructionOpcode(LLVMValueRef Inst);
/**
* Obtain the predicate of an instruction.
*
* This is only valid for instructions that correspond to llvm::ICmpInst
* or llvm::ConstantExpr whose opcode is llvm::Instruction::ICmp.
*
* @see llvm::ICmpInst::getPredicate()
*/
LLVMIntPredicate LLVMGetICmpPredicate(LLVMValueRef Inst);
/**
* @defgroup LLVMCCoreValueInstructionCall Call Sites and Invocations
*
* Functions in this group apply to instructions that refer to call
* sites and invocations. These correspond to C++ types in the
* llvm::CallInst class tree.
*
* @{
*/
/**
* Set the calling convention for a call instruction.
*
* This expects an LLVMValueRef that corresponds to a llvm::CallInst or
* llvm::InvokeInst.
*
* @see llvm::CallInst::setCallingConv()
* @see llvm::InvokeInst::setCallingConv()
*/
void LLVMSetInstructionCallConv(LLVMValueRef Instr, unsigned CC);
/**
* Obtain the calling convention for a call instruction.
*
* This is the opposite of LLVMSetInstructionCallConv(). Reads its
* usage.
*
* @see LLVMSetInstructionCallConv()
*/
unsigned LLVMGetInstructionCallConv(LLVMValueRef Instr);
void LLVMAddInstrAttribute(LLVMValueRef Instr, unsigned index, LLVMAttribute);
void LLVMRemoveInstrAttribute(LLVMValueRef Instr, unsigned index,
LLVMAttribute);
void LLVMSetInstrParamAlignment(LLVMValueRef Instr, unsigned index,
unsigned align);
/**
* Obtain whether a call instruction is a tail call.
*
* This only works on llvm::CallInst instructions.
*
* @see llvm::CallInst::isTailCall()
*/
LLVMBool LLVMIsTailCall(LLVMValueRef CallInst);
/**
* Set whether a call instruction is a tail call.
*
* This only works on llvm::CallInst instructions.
*
* @see llvm::CallInst::setTailCall()
*/
void LLVMSetTailCall(LLVMValueRef CallInst, LLVMBool IsTailCall);
/**
* @}
*/
/**
* Obtain the default destination basic block of a switch instruction.
*
* This only works on llvm::SwitchInst instructions.
*
* @see llvm::SwitchInst::getDefaultDest()
*/
LLVMBasicBlockRef LLVMGetSwitchDefaultDest(LLVMValueRef SwitchInstr);
/**
* @defgroup LLVMCCoreValueInstructionPHINode PHI Nodes
*
* Functions in this group only apply to instructions that map to
* llvm::PHINode instances.
*
* @{
*/
/**
* Add an incoming value to the end of a PHI list.
*/
void LLVMAddIncoming(LLVMValueRef PhiNode, LLVMValueRef *IncomingValues,
LLVMBasicBlockRef *IncomingBlocks, unsigned Count);
/**
* Obtain the number of incoming basic blocks to a PHI node.
*/
unsigned LLVMCountIncoming(LLVMValueRef PhiNode);
/**
* Obtain an incoming value to a PHI node as a LLVMValueRef.
*/
LLVMValueRef LLVMGetIncomingValue(LLVMValueRef PhiNode, unsigned Index);
/**
* Obtain an incoming value to a PHI node as a LLVMBasicBlockRef.
*/
LLVMBasicBlockRef LLVMGetIncomingBlock(LLVMValueRef PhiNode, unsigned Index);
/**
* @}
*/
/**
* @}
*/
/**
* @}
*/
/**
* @defgroup LLVMCCoreInstructionBuilder Instruction Builders
*
* An instruction builder represents a point within a basic block and is
* the exclusive means of building instructions using the C interface.
*
* @{
*/
LLVMBuilderRef LLVMCreateBuilderInContext(LLVMContextRef C);
LLVMBuilderRef LLVMCreateBuilder(void);
void LLVMPositionBuilder(LLVMBuilderRef Builder, LLVMBasicBlockRef Block,
LLVMValueRef Instr);
void LLVMPositionBuilderBefore(LLVMBuilderRef Builder, LLVMValueRef Instr);
void LLVMPositionBuilderAtEnd(LLVMBuilderRef Builder, LLVMBasicBlockRef Block);
LLVMBasicBlockRef LLVMGetInsertBlock(LLVMBuilderRef Builder);
void LLVMClearInsertionPosition(LLVMBuilderRef Builder);
void LLVMInsertIntoBuilder(LLVMBuilderRef Builder, LLVMValueRef Instr);
void LLVMInsertIntoBuilderWithName(LLVMBuilderRef Builder, LLVMValueRef Instr,
const char *Name);
void LLVMDisposeBuilder(LLVMBuilderRef Builder);
/* Metadata */
void LLVMSetCurrentDebugLocation(LLVMBuilderRef Builder, LLVMValueRef L);
LLVMValueRef LLVMGetCurrentDebugLocation(LLVMBuilderRef Builder);
void LLVMSetInstDebugLocation(LLVMBuilderRef Builder, LLVMValueRef Inst);
/* Terminators */
LLVMValueRef LLVMBuildRetVoid(LLVMBuilderRef);
LLVMValueRef LLVMBuildRet(LLVMBuilderRef, LLVMValueRef V);
LLVMValueRef LLVMBuildAggregateRet(LLVMBuilderRef, LLVMValueRef *RetVals,
unsigned N);
LLVMValueRef LLVMBuildBr(LLVMBuilderRef, LLVMBasicBlockRef Dest);
LLVMValueRef LLVMBuildCondBr(LLVMBuilderRef, LLVMValueRef If,
LLVMBasicBlockRef Then, LLVMBasicBlockRef Else);
LLVMValueRef LLVMBuildSwitch(LLVMBuilderRef, LLVMValueRef V,
LLVMBasicBlockRef Else, unsigned NumCases);
LLVMValueRef LLVMBuildIndirectBr(LLVMBuilderRef B, LLVMValueRef Addr,
unsigned NumDests);
LLVMValueRef LLVMBuildInvoke(LLVMBuilderRef, LLVMValueRef Fn,
LLVMValueRef *Args, unsigned NumArgs,
LLVMBasicBlockRef Then, LLVMBasicBlockRef Catch,
const char *Name);
LLVMValueRef LLVMBuildLandingPad(LLVMBuilderRef B, LLVMTypeRef Ty,
LLVMValueRef PersFn, unsigned NumClauses,
const char *Name);
LLVMValueRef LLVMBuildResume(LLVMBuilderRef B, LLVMValueRef Exn);
LLVMValueRef LLVMBuildUnreachable(LLVMBuilderRef);
/* Add a case to the switch instruction */
void LLVMAddCase(LLVMValueRef Switch, LLVMValueRef OnVal,
LLVMBasicBlockRef Dest);
/* Add a destination to the indirectbr instruction */
void LLVMAddDestination(LLVMValueRef IndirectBr, LLVMBasicBlockRef Dest);
/* Add a catch or filter clause to the landingpad instruction */
void LLVMAddClause(LLVMValueRef LandingPad, LLVMValueRef ClauseVal);
/* Set the 'cleanup' flag in the landingpad instruction */
void LLVMSetCleanup(LLVMValueRef LandingPad, LLVMBool Val);
/* Arithmetic */
LLVMValueRef LLVMBuildAdd(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildNSWAdd(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildNUWAdd(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildFAdd(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildSub(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildNSWSub(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildNUWSub(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildFSub(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildMul(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildNSWMul(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildNUWMul(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildFMul(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildUDiv(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildSDiv(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildExactSDiv(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildFDiv(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildURem(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildSRem(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildFRem(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildShl(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildLShr(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildAShr(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildAnd(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildOr(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildXor(LLVMBuilderRef, LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildBinOp(LLVMBuilderRef B, LLVMOpcode Op,
LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildNeg(LLVMBuilderRef, LLVMValueRef V, const char *Name);
LLVMValueRef LLVMBuildNSWNeg(LLVMBuilderRef B, LLVMValueRef V,
const char *Name);
LLVMValueRef LLVMBuildNUWNeg(LLVMBuilderRef B, LLVMValueRef V,
const char *Name);
LLVMValueRef LLVMBuildFNeg(LLVMBuilderRef, LLVMValueRef V, const char *Name);
LLVMValueRef LLVMBuildNot(LLVMBuilderRef, LLVMValueRef V, const char *Name);
/* Memory */
LLVMValueRef LLVMBuildMalloc(LLVMBuilderRef, LLVMTypeRef Ty, const char *Name);
LLVMValueRef LLVMBuildArrayMalloc(LLVMBuilderRef, LLVMTypeRef Ty,
LLVMValueRef Val, const char *Name);
LLVMValueRef LLVMBuildAlloca(LLVMBuilderRef, LLVMTypeRef Ty, const char *Name);
LLVMValueRef LLVMBuildArrayAlloca(LLVMBuilderRef, LLVMTypeRef Ty,
LLVMValueRef Val, const char *Name);
LLVMValueRef LLVMBuildFree(LLVMBuilderRef, LLVMValueRef PointerVal);
LLVMValueRef LLVMBuildLoad(LLVMBuilderRef, LLVMValueRef PointerVal,
const char *Name);
LLVMValueRef LLVMBuildStore(LLVMBuilderRef, LLVMValueRef Val, LLVMValueRef Ptr);
LLVMValueRef LLVMBuildGEP(LLVMBuilderRef B, LLVMValueRef Pointer,
LLVMValueRef *Indices, unsigned NumIndices,
const char *Name);
LLVMValueRef LLVMBuildInBoundsGEP(LLVMBuilderRef B, LLVMValueRef Pointer,
LLVMValueRef *Indices, unsigned NumIndices,
const char *Name);
LLVMValueRef LLVMBuildStructGEP(LLVMBuilderRef B, LLVMValueRef Pointer,
unsigned Idx, const char *Name);
LLVMValueRef LLVMBuildGlobalString(LLVMBuilderRef B, const char *Str,
const char *Name);
LLVMValueRef LLVMBuildGlobalStringPtr(LLVMBuilderRef B, const char *Str,
const char *Name);
LLVMBool LLVMGetVolatile(LLVMValueRef MemoryAccessInst);
void LLVMSetVolatile(LLVMValueRef MemoryAccessInst, LLVMBool IsVolatile);
/* Casts */
LLVMValueRef LLVMBuildTrunc(LLVMBuilderRef, LLVMValueRef Val,
LLVMTypeRef DestTy, const char *Name);
LLVMValueRef LLVMBuildZExt(LLVMBuilderRef, LLVMValueRef Val,
LLVMTypeRef DestTy, const char *Name);
LLVMValueRef LLVMBuildSExt(LLVMBuilderRef, LLVMValueRef Val,
LLVMTypeRef DestTy, const char *Name);
LLVMValueRef LLVMBuildFPToUI(LLVMBuilderRef, LLVMValueRef Val,
LLVMTypeRef DestTy, const char *Name);
LLVMValueRef LLVMBuildFPToSI(LLVMBuilderRef, LLVMValueRef Val,
LLVMTypeRef DestTy, const char *Name);
LLVMValueRef LLVMBuildUIToFP(LLVMBuilderRef, LLVMValueRef Val,
LLVMTypeRef DestTy, const char *Name);
LLVMValueRef LLVMBuildSIToFP(LLVMBuilderRef, LLVMValueRef Val,
LLVMTypeRef DestTy, const char *Name);
LLVMValueRef LLVMBuildFPTrunc(LLVMBuilderRef, LLVMValueRef Val,
LLVMTypeRef DestTy, const char *Name);
LLVMValueRef LLVMBuildFPExt(LLVMBuilderRef, LLVMValueRef Val,
LLVMTypeRef DestTy, const char *Name);
LLVMValueRef LLVMBuildPtrToInt(LLVMBuilderRef, LLVMValueRef Val,
LLVMTypeRef DestTy, const char *Name);
LLVMValueRef LLVMBuildIntToPtr(LLVMBuilderRef, LLVMValueRef Val,
LLVMTypeRef DestTy, const char *Name);
LLVMValueRef LLVMBuildBitCast(LLVMBuilderRef, LLVMValueRef Val,
LLVMTypeRef DestTy, const char *Name);
LLVMValueRef LLVMBuildZExtOrBitCast(LLVMBuilderRef, LLVMValueRef Val,
LLVMTypeRef DestTy, const char *Name);
LLVMValueRef LLVMBuildSExtOrBitCast(LLVMBuilderRef, LLVMValueRef Val,
LLVMTypeRef DestTy, const char *Name);
LLVMValueRef LLVMBuildTruncOrBitCast(LLVMBuilderRef, LLVMValueRef Val,
LLVMTypeRef DestTy, const char *Name);
LLVMValueRef LLVMBuildCast(LLVMBuilderRef B, LLVMOpcode Op, LLVMValueRef Val,
LLVMTypeRef DestTy, const char *Name);
LLVMValueRef LLVMBuildPointerCast(LLVMBuilderRef, LLVMValueRef Val,
LLVMTypeRef DestTy, const char *Name);
LLVMValueRef LLVMBuildIntCast(LLVMBuilderRef, LLVMValueRef Val, /*Signed cast!*/
LLVMTypeRef DestTy, const char *Name);
LLVMValueRef LLVMBuildFPCast(LLVMBuilderRef, LLVMValueRef Val,
LLVMTypeRef DestTy, const char *Name);
/* Comparisons */
LLVMValueRef LLVMBuildICmp(LLVMBuilderRef, LLVMIntPredicate Op,
LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
LLVMValueRef LLVMBuildFCmp(LLVMBuilderRef, LLVMRealPredicate Op,
LLVMValueRef LHS, LLVMValueRef RHS,
const char *Name);
/* Miscellaneous instructions */
LLVMValueRef LLVMBuildPhi(LLVMBuilderRef, LLVMTypeRef Ty, const char *Name);
LLVMValueRef LLVMBuildCall(LLVMBuilderRef, LLVMValueRef Fn,
LLVMValueRef *Args, unsigned NumArgs,
const char *Name);
LLVMValueRef LLVMBuildSelect(LLVMBuilderRef, LLVMValueRef If,
LLVMValueRef Then, LLVMValueRef Else,
const char *Name);
LLVMValueRef LLVMBuildVAArg(LLVMBuilderRef, LLVMValueRef List, LLVMTypeRef Ty,
const char *Name);
LLVMValueRef LLVMBuildExtractElement(LLVMBuilderRef, LLVMValueRef VecVal,
LLVMValueRef Index, const char *Name);
LLVMValueRef LLVMBuildInsertElement(LLVMBuilderRef, LLVMValueRef VecVal,
LLVMValueRef EltVal, LLVMValueRef Index,
const char *Name);
LLVMValueRef LLVMBuildShuffleVector(LLVMBuilderRef, LLVMValueRef V1,
LLVMValueRef V2, LLVMValueRef Mask,
const char *Name);
LLVMValueRef LLVMBuildExtractValue(LLVMBuilderRef, LLVMValueRef AggVal,
unsigned Index, const char *Name);
LLVMValueRef LLVMBuildInsertValue(LLVMBuilderRef, LLVMValueRef AggVal,
LLVMValueRef EltVal, unsigned Index,
const char *Name);
LLVMValueRef LLVMBuildIsNull(LLVMBuilderRef, LLVMValueRef Val,
const char *Name);
LLVMValueRef LLVMBuildIsNotNull(LLVMBuilderRef, LLVMValueRef Val,
const char *Name);
LLVMValueRef LLVMBuildPtrDiff(LLVMBuilderRef, LLVMValueRef LHS,
LLVMValueRef RHS, const char *Name);
/**
* @}
*/
/**
* @defgroup LLVMCCoreModuleProvider Module Providers
*
* @{
*/
/**
* Changes the type of M so it can be passed to FunctionPassManagers and the
* JIT. They take ModuleProviders for historical reasons.
*/
LLVMModuleProviderRef
LLVMCreateModuleProviderForExistingModule(LLVMModuleRef M);
/**
* Destroys the module M.
*/
void LLVMDisposeModuleProvider(LLVMModuleProviderRef M);
/**
* @}
*/
/**
* @defgroup LLVMCCoreMemoryBuffers Memory Buffers
*
* @{
*/
LLVMBool LLVMCreateMemoryBufferWithContentsOfFile(const char *Path,
LLVMMemoryBufferRef *OutMemBuf,
char **OutMessage);
LLVMBool LLVMCreateMemoryBufferWithSTDIN(LLVMMemoryBufferRef *OutMemBuf,
char **OutMessage);
LLVMMemoryBufferRef LLVMCreateMemoryBufferWithMemoryRange(const char *InputData,
size_t InputDataLength,
const char *BufferName,
LLVMBool RequiresNullTerminator);
LLVMMemoryBufferRef LLVMCreateMemoryBufferWithMemoryRangeCopy(const char *InputData,
size_t InputDataLength,
const char *BufferName);
void LLVMDisposeMemoryBuffer(LLVMMemoryBufferRef MemBuf);
/**
* @}
*/
/**
* @defgroup LLVMCCorePassRegistry Pass Registry
*
* @{
*/
/** Return the global pass registry, for use with initialization functions.
@see llvm::PassRegistry::getPassRegistry */
LLVMPassRegistryRef LLVMGetGlobalPassRegistry(void);
/**
* @}
*/
/**
* @defgroup LLVMCCorePassManagers Pass Managers
*
* @{
*/
/** Constructs a new whole-module pass pipeline. This type of pipeline is
suitable for link-time optimization and whole-module transformations.
@see llvm::PassManager::PassManager */
LLVMPassManagerRef LLVMCreatePassManager(void);
/** Constructs a new function-by-function pass pipeline over the module
provider. It does not take ownership of the module provider. This type of
pipeline is suitable for code generation and JIT compilation tasks.
@see llvm::FunctionPassManager::FunctionPassManager */
LLVMPassManagerRef LLVMCreateFunctionPassManagerForModule(LLVMModuleRef M);
/** Deprecated: Use LLVMCreateFunctionPassManagerForModule instead. */
LLVMPassManagerRef LLVMCreateFunctionPassManager(LLVMModuleProviderRef MP);
/** Initializes, executes on the provided module, and finalizes all of the
passes scheduled in the pass manager. Returns 1 if any of the passes
modified the module, 0 otherwise.
@see llvm::PassManager::run(Module&) */
LLVMBool LLVMRunPassManager(LLVMPassManagerRef PM, LLVMModuleRef M);
/** Initializes all of the function passes scheduled in the function pass
manager. Returns 1 if any of the passes modified the module, 0 otherwise.
@see llvm::FunctionPassManager::doInitialization */
LLVMBool LLVMInitializeFunctionPassManager(LLVMPassManagerRef FPM);
/** Executes all of the function passes scheduled in the function pass manager
on the provided function. Returns 1 if any of the passes modified the
function, false otherwise.
@see llvm::FunctionPassManager::run(Function&) */
LLVMBool LLVMRunFunctionPassManager(LLVMPassManagerRef FPM, LLVMValueRef F);
/** Finalizes all of the function passes scheduled in in the function pass
manager. Returns 1 if any of the passes modified the module, 0 otherwise.
@see llvm::FunctionPassManager::doFinalization */
LLVMBool LLVMFinalizeFunctionPassManager(LLVMPassManagerRef FPM);
/** Frees the memory of a pass pipeline. For function pipelines, does not free
the module provider.
@see llvm::PassManagerBase::~PassManagerBase. */
void LLVMDisposePassManager(LLVMPassManagerRef PM);
/**
* @}
*/
/**
* @defgroup LLVMCCoreThreading Threading
*
* Handle the structures needed to make LLVM safe for multithreading.
*
* @{
*/
/** Allocate and initialize structures needed to make LLVM safe for
multithreading. The return value indicates whether multithreaded
initialization succeeded. Must be executed in isolation from all
other LLVM api calls.
@see llvm::llvm_start_multithreaded */
LLVMBool LLVMStartMultithreaded();
/** Deallocate structures necessary to make LLVM safe for multithreading.
Must be executed in isolation from all other LLVM api calls.
@see llvm::llvm_stop_multithreaded */
void LLVMStopMultithreaded();
/** Check whether LLVM is executing in thread-safe mode or not.
@see llvm::llvm_is_multithreaded */
LLVMBool LLVMIsMultithreaded();
/**
* @}
*/
/**
* @}
*/
/**
* @}
*/
#ifdef __cplusplus
}
namespace llvm {
class MemoryBuffer;
class PassManagerBase;
#define DEFINE_SIMPLE_CONVERSION_FUNCTIONS(ty, ref) \
inline ty *unwrap(ref P) { \
return reinterpret_cast<ty*>(P); \
} \
\
inline ref wrap(const ty *P) { \
return reinterpret_cast<ref>(const_cast<ty*>(P)); \
}
#define DEFINE_ISA_CONVERSION_FUNCTIONS(ty, ref) \
DEFINE_SIMPLE_CONVERSION_FUNCTIONS(ty, ref) \
\
template<typename T> \
inline T *unwrap(ref P) { \
return cast<T>(unwrap(P)); \
}
#define DEFINE_STDCXX_CONVERSION_FUNCTIONS(ty, ref) \
DEFINE_SIMPLE_CONVERSION_FUNCTIONS(ty, ref) \
\
template<typename T> \
inline T *unwrap(ref P) { \
T *Q = (T*)unwrap(P); \
assert(Q && "Invalid cast!"); \
return Q; \
}
DEFINE_ISA_CONVERSION_FUNCTIONS (Type, LLVMTypeRef )
DEFINE_ISA_CONVERSION_FUNCTIONS (Value, LLVMValueRef )
DEFINE_SIMPLE_CONVERSION_FUNCTIONS(Module, LLVMModuleRef )
DEFINE_SIMPLE_CONVERSION_FUNCTIONS(BasicBlock, LLVMBasicBlockRef )
DEFINE_SIMPLE_CONVERSION_FUNCTIONS(IRBuilder<>, LLVMBuilderRef )
DEFINE_SIMPLE_CONVERSION_FUNCTIONS(MemoryBuffer, LLVMMemoryBufferRef )
DEFINE_SIMPLE_CONVERSION_FUNCTIONS(LLVMContext, LLVMContextRef )
DEFINE_SIMPLE_CONVERSION_FUNCTIONS(Use, LLVMUseRef )
DEFINE_STDCXX_CONVERSION_FUNCTIONS(PassManagerBase, LLVMPassManagerRef )
DEFINE_STDCXX_CONVERSION_FUNCTIONS(PassRegistry, LLVMPassRegistryRef )
/* LLVMModuleProviderRef exists for historical reasons, but now just holds a
* Module.
*/
inline Module *unwrap(LLVMModuleProviderRef MP) {
return reinterpret_cast<Module*>(MP);
}
#undef DEFINE_STDCXX_CONVERSION_FUNCTIONS
#undef DEFINE_ISA_CONVERSION_FUNCTIONS
#undef DEFINE_SIMPLE_CONVERSION_FUNCTIONS
/* Specialized opaque context conversions.
*/
inline LLVMContext **unwrap(LLVMContextRef* Tys) {
return reinterpret_cast<LLVMContext**>(Tys);
}
inline LLVMContextRef *wrap(const LLVMContext **Tys) {
return reinterpret_cast<LLVMContextRef*>(const_cast<LLVMContext**>(Tys));
}
/* Specialized opaque type conversions.
*/
inline Type **unwrap(LLVMTypeRef* Tys) {
return reinterpret_cast<Type**>(Tys);
}
inline LLVMTypeRef *wrap(Type **Tys) {
return reinterpret_cast<LLVMTypeRef*>(const_cast<Type**>(Tys));
}
/* Specialized opaque value conversions.
*/
inline Value **unwrap(LLVMValueRef *Vals) {
return reinterpret_cast<Value**>(Vals);
}
template<typename T>
inline T **unwrap(LLVMValueRef *Vals, unsigned Length) {
#ifdef DEBUG
for (LLVMValueRef *I = Vals, *E = Vals + Length; I != E; ++I)
cast<T>(*I);
#endif
(void)Length;
return reinterpret_cast<T**>(Vals);
}
inline LLVMValueRef *wrap(const Value **Vals) {
return reinterpret_cast<LLVMValueRef*>(const_cast<Value**>(Vals));
}
}
#endif /* !defined(__cplusplus) */
#endif /* !defined(LLVM_C_CORE_H) */
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