// Copyright 2012 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. // LLVM wrappers are intended to be called from trans, // which already runs in a #[fixed_stack_segment] #[allow(cstack)]; use std::c_str::ToCStr; use std::hashmap::HashMap; use std::libc::{c_uint, c_ushort}; use std::option; use middle::trans::type_::Type; pub type Opcode = u32; pub type Bool = c_uint; pub static True: Bool = 1 as Bool; pub static False: Bool = 0 as Bool; // Consts for the LLVM CallConv type, pre-cast to uint. pub enum CallConv { CCallConv = 0, FastCallConv = 8, ColdCallConv = 9, X86StdcallCallConv = 64, X86FastcallCallConv = 65, } pub enum Visibility { LLVMDefaultVisibility = 0, HiddenVisibility = 1, ProtectedVisibility = 2, } pub enum Linkage { ExternalLinkage = 0, AvailableExternallyLinkage = 1, LinkOnceAnyLinkage = 2, LinkOnceODRLinkage = 3, LinkOnceODRAutoHideLinkage = 4, WeakAnyLinkage = 5, WeakODRLinkage = 6, AppendingLinkage = 7, InternalLinkage = 8, PrivateLinkage = 9, DLLImportLinkage = 10, DLLExportLinkage = 11, ExternalWeakLinkage = 12, GhostLinkage = 13, CommonLinkage = 14, LinkerPrivateLinkage = 15, LinkerPrivateWeakLinkage = 16, } #[deriving(Clone)] pub enum Attribute { ZExtAttribute = 1 << 0, SExtAttribute = 1 << 1, NoReturnAttribute = 1 << 2, InRegAttribute = 1 << 3, StructRetAttribute = 1 << 4, NoUnwindAttribute = 1 << 5, NoAliasAttribute = 1 << 6, ByValAttribute = 1 << 7, NestAttribute = 1 << 8, ReadNoneAttribute = 1 << 9, ReadOnlyAttribute = 1 << 10, NoInlineAttribute = 1 << 11, AlwaysInlineAttribute = 1 << 12, OptimizeForSizeAttribute = 1 << 13, StackProtectAttribute = 1 << 14, StackProtectReqAttribute = 1 << 15, AlignmentAttribute = 31 << 16, NoCaptureAttribute = 1 << 21, NoRedZoneAttribute = 1 << 22, NoImplicitFloatAttribute = 1 << 23, NakedAttribute = 1 << 24, InlineHintAttribute = 1 << 25, StackAttribute = 7 << 26, ReturnsTwiceAttribute = 1 << 29, UWTableAttribute = 1 << 30, NonLazyBindAttribute = 1 << 31, } // enum for the LLVM IntPredicate type pub enum IntPredicate { IntEQ = 32, IntNE = 33, IntUGT = 34, IntUGE = 35, IntULT = 36, IntULE = 37, IntSGT = 38, IntSGE = 39, IntSLT = 40, IntSLE = 41, } // enum for the LLVM RealPredicate type pub enum RealPredicate { RealPredicateFalse = 0, RealOEQ = 1, RealOGT = 2, RealOGE = 3, RealOLT = 4, RealOLE = 5, RealONE = 6, RealORD = 7, RealUNO = 8, RealUEQ = 9, RealUGT = 10, RealUGE = 11, RealULT = 12, RealULE = 13, RealUNE = 14, RealPredicateTrue = 15, } // The LLVM TypeKind type - must stay in sync with the def of // LLVMTypeKind in llvm/include/llvm-c/Core.h pub type TypeKind = u32; pub static Void: TypeKind = 0; pub static Half: TypeKind = 1; pub static Float: TypeKind = 2; pub static Double: TypeKind = 3; pub static X86_FP80: TypeKind = 4; pub static FP128: TypeKind = 5; pub static PPC_FP128: TypeKind = 6; pub static Label: TypeKind = 7; pub static Integer: TypeKind = 8; pub static Function: TypeKind = 9; pub static Struct: TypeKind = 10; pub static Array: TypeKind = 11; pub static Pointer: TypeKind = 12; pub static Vector: TypeKind = 13; pub static Metadata: TypeKind = 14; pub static X86_MMX: TypeKind = 15; pub enum AtomicBinOp { Xchg = 0, Add = 1, Sub = 2, And = 3, Nand = 4, Or = 5, Xor = 6, Max = 7, Min = 8, UMax = 9, UMin = 10, } pub enum AtomicOrdering { NotAtomic = 0, Unordered = 1, Monotonic = 2, // Consume = 3, // Not specified yet. Acquire = 4, Release = 5, AcquireRelease = 6, SequentiallyConsistent = 7 } // FIXME: Not used right now, but will be once #2334 is fixed // Consts for the LLVMCodeGenFileType type (in include/llvm/c/TargetMachine.h) pub enum FileType { AssemblyFile = 0, ObjectFile = 1 } pub enum Metadata { MD_dbg = 0, MD_tbaa = 1, MD_prof = 2, MD_fpmath = 3, MD_range = 4, MD_tbaa_struct = 5 } // Inline Asm Dialect pub enum AsmDialect { AD_ATT = 0, AD_Intel = 1 } // Opaque pointer types pub enum Module_opaque {} pub type ModuleRef = *Module_opaque; pub enum Context_opaque {} pub type ContextRef = *Context_opaque; pub enum Type_opaque {} pub type TypeRef = *Type_opaque; pub enum Value_opaque {} pub type ValueRef = *Value_opaque; pub enum BasicBlock_opaque {} pub type BasicBlockRef = *BasicBlock_opaque; pub enum Builder_opaque {} pub type BuilderRef = *Builder_opaque; pub enum ExecutionEngine_opaque {} pub type ExecutionEngineRef = *ExecutionEngine_opaque; pub enum MemoryBuffer_opaque {} pub type MemoryBufferRef = *MemoryBuffer_opaque; pub enum PassManager_opaque {} pub type PassManagerRef = *PassManager_opaque; pub enum PassManagerBuilder_opaque {} pub type PassManagerBuilderRef = *PassManagerBuilder_opaque; pub enum Use_opaque {} pub type UseRef = *Use_opaque; pub enum TargetData_opaque {} pub type TargetDataRef = *TargetData_opaque; pub enum ObjectFile_opaque {} pub type ObjectFileRef = *ObjectFile_opaque; pub enum SectionIterator_opaque {} pub type SectionIteratorRef = *SectionIterator_opaque; pub enum Pass_opaque {} pub type PassRef = *Pass_opaque; pub mod debuginfo { use super::{ValueRef}; pub enum DIBuilder_opaque {} pub type DIBuilderRef = *DIBuilder_opaque; pub type DIDescriptor = ValueRef; pub type DIScope = DIDescriptor; pub type DILocation = DIDescriptor; pub type DIFile = DIScope; pub type DILexicalBlock = DIScope; pub type DISubprogram = DIScope; pub type DIType = DIDescriptor; pub type DIBasicType = DIType; pub type DIDerivedType = DIType; pub type DICompositeType = DIDerivedType; pub type DIVariable = DIDescriptor; pub type DIArray = DIDescriptor; pub type DISubrange = DIDescriptor; pub enum DIDescriptorFlags { FlagPrivate = 1 << 0, FlagProtected = 1 << 1, FlagFwdDecl = 1 << 2, FlagAppleBlock = 1 << 3, FlagBlockByrefStruct = 1 << 4, FlagVirtual = 1 << 5, FlagArtificial = 1 << 6, FlagExplicit = 1 << 7, FlagPrototyped = 1 << 8, FlagObjcClassComplete = 1 << 9, FlagObjectPointer = 1 << 10, FlagVector = 1 << 11, FlagStaticMember = 1 << 12 } } pub mod llvm { use super::{AtomicBinOp, AtomicOrdering, BasicBlockRef, ExecutionEngineRef}; use super::{Bool, BuilderRef, ContextRef, MemoryBufferRef, ModuleRef}; use super::{ObjectFileRef, Opcode, PassManagerRef, PassManagerBuilderRef}; use super::{SectionIteratorRef, TargetDataRef, TypeKind, TypeRef, UseRef}; use super::{ValueRef, PassRef}; use super::debuginfo::*; use std::libc::{c_char, c_int, c_longlong, c_ushort, c_uint, c_ulonglong}; #[link_args = "-Lrustllvm -lrustllvm"] #[link_name = "rustllvm"] #[abi = "cdecl"] extern { /* Create and destroy contexts. */ #[fast_ffi] pub fn LLVMContextCreate() -> ContextRef; #[fast_ffi] pub fn LLVMContextDispose(C: ContextRef); #[fast_ffi] pub fn LLVMGetMDKindIDInContext(C: ContextRef, Name: *c_char, SLen: c_uint) -> c_uint; /* Create and destroy modules. */ #[fast_ffi] pub fn LLVMModuleCreateWithNameInContext(ModuleID: *c_char, C: ContextRef) -> ModuleRef; #[fast_ffi] pub fn LLVMGetModuleContext(M: ModuleRef) -> ContextRef; #[fast_ffi] pub fn LLVMDisposeModule(M: ModuleRef); /** Data layout. See Module::getDataLayout. */ #[fast_ffi] pub fn LLVMGetDataLayout(M: ModuleRef) -> *c_char; #[fast_ffi] pub fn LLVMSetDataLayout(M: ModuleRef, Triple: *c_char); /** Target triple. See Module::getTargetTriple. */ #[fast_ffi] pub fn LLVMGetTarget(M: ModuleRef) -> *c_char; #[fast_ffi] pub fn LLVMSetTarget(M: ModuleRef, Triple: *c_char); /** See Module::dump. */ #[fast_ffi] pub fn LLVMDumpModule(M: ModuleRef); /** See Module::setModuleInlineAsm. */ #[fast_ffi] pub fn LLVMSetModuleInlineAsm(M: ModuleRef, Asm: *c_char); /** See llvm::LLVMTypeKind::getTypeID. */ pub fn LLVMGetTypeKind(Ty: TypeRef) -> TypeKind; /** See llvm::LLVMType::getContext. */ #[fast_ffi] pub fn LLVMGetTypeContext(Ty: TypeRef) -> ContextRef; /* Operations on integer types */ #[fast_ffi] pub fn LLVMInt1TypeInContext(C: ContextRef) -> TypeRef; #[fast_ffi] pub fn LLVMInt8TypeInContext(C: ContextRef) -> TypeRef; #[fast_ffi] pub fn LLVMInt16TypeInContext(C: ContextRef) -> TypeRef; #[fast_ffi] pub fn LLVMInt32TypeInContext(C: ContextRef) -> TypeRef; #[fast_ffi] pub fn LLVMInt64TypeInContext(C: ContextRef) -> TypeRef; #[fast_ffi] pub fn LLVMIntTypeInContext(C: ContextRef, NumBits: c_uint) -> TypeRef; #[fast_ffi] pub fn LLVMGetIntTypeWidth(IntegerTy: TypeRef) -> c_uint; /* Operations on real types */ #[fast_ffi] pub fn LLVMFloatTypeInContext(C: ContextRef) -> TypeRef; #[fast_ffi] pub fn LLVMDoubleTypeInContext(C: ContextRef) -> TypeRef; #[fast_ffi] pub fn LLVMX86FP80TypeInContext(C: ContextRef) -> TypeRef; #[fast_ffi] pub fn LLVMFP128TypeInContext(C: ContextRef) -> TypeRef; #[fast_ffi] pub fn LLVMPPCFP128TypeInContext(C: ContextRef) -> TypeRef; /* Operations on function types */ #[fast_ffi] pub fn LLVMFunctionType(ReturnType: TypeRef, ParamTypes: *TypeRef, ParamCount: c_uint, IsVarArg: Bool) -> TypeRef; #[fast_ffi] pub fn LLVMIsFunctionVarArg(FunctionTy: TypeRef) -> Bool; #[fast_ffi] pub fn LLVMGetReturnType(FunctionTy: TypeRef) -> TypeRef; #[fast_ffi] pub fn LLVMCountParamTypes(FunctionTy: TypeRef) -> c_uint; #[fast_ffi] pub fn LLVMGetParamTypes(FunctionTy: TypeRef, Dest: *TypeRef); /* Operations on struct types */ #[fast_ffi] pub fn LLVMStructTypeInContext(C: ContextRef, ElementTypes: *TypeRef, ElementCount: c_uint, Packed: Bool) -> TypeRef; #[fast_ffi] pub fn LLVMCountStructElementTypes(StructTy: TypeRef) -> c_uint; #[fast_ffi] pub fn LLVMGetStructElementTypes(StructTy: TypeRef, Dest: *mut TypeRef); #[fast_ffi] pub fn LLVMIsPackedStruct(StructTy: TypeRef) -> Bool; /* Operations on array, pointer, and vector types (sequence types) */ #[fast_ffi] pub fn LLVMArrayType(ElementType: TypeRef, ElementCount: c_uint) -> TypeRef; #[fast_ffi] pub fn LLVMPointerType(ElementType: TypeRef, AddressSpace: c_uint) -> TypeRef; #[fast_ffi] pub fn LLVMVectorType(ElementType: TypeRef, ElementCount: c_uint) -> TypeRef; #[fast_ffi] pub fn LLVMGetElementType(Ty: TypeRef) -> TypeRef; #[fast_ffi] pub fn LLVMGetArrayLength(ArrayTy: TypeRef) -> c_uint; #[fast_ffi] pub fn LLVMGetPointerAddressSpace(PointerTy: TypeRef) -> c_uint; #[fast_ffi] pub fn LLVMGetPointerToGlobal(EE: ExecutionEngineRef, V: ValueRef) -> *(); #[fast_ffi] pub fn LLVMGetVectorSize(VectorTy: TypeRef) -> c_uint; /* Operations on other types */ #[fast_ffi] pub fn LLVMVoidTypeInContext(C: ContextRef) -> TypeRef; #[fast_ffi] pub fn LLVMLabelTypeInContext(C: ContextRef) -> TypeRef; #[fast_ffi] pub fn LLVMMetadataTypeInContext(C: ContextRef) -> TypeRef; /* Operations on all values */ #[fast_ffi] pub fn LLVMTypeOf(Val: ValueRef) -> TypeRef; #[fast_ffi] pub fn LLVMGetValueName(Val: ValueRef) -> *c_char; #[fast_ffi] pub fn LLVMSetValueName(Val: ValueRef, Name: *c_char); #[fast_ffi] pub fn LLVMDumpValue(Val: ValueRef); #[fast_ffi] pub fn LLVMReplaceAllUsesWith(OldVal: ValueRef, NewVal: ValueRef); #[fast_ffi] pub fn LLVMHasMetadata(Val: ValueRef) -> c_int; #[fast_ffi] pub fn LLVMGetMetadata(Val: ValueRef, KindID: c_uint) -> ValueRef; #[fast_ffi] pub fn LLVMSetMetadata(Val: ValueRef, KindID: c_uint, Node: ValueRef); /* Operations on Uses */ #[fast_ffi] pub fn LLVMGetFirstUse(Val: ValueRef) -> UseRef; #[fast_ffi] pub fn LLVMGetNextUse(U: UseRef) -> UseRef; #[fast_ffi] pub fn LLVMGetUser(U: UseRef) -> ValueRef; #[fast_ffi] pub fn LLVMGetUsedValue(U: UseRef) -> ValueRef; /* Operations on Users */ #[fast_ffi] pub fn LLVMGetNumOperands(Val: ValueRef) -> c_int; #[fast_ffi] pub fn LLVMGetOperand(Val: ValueRef, Index: c_uint) -> ValueRef; #[fast_ffi] pub fn LLVMSetOperand(Val: ValueRef, Index: c_uint, Op: ValueRef); /* Operations on constants of any type */ #[fast_ffi] pub fn LLVMConstNull(Ty: TypeRef) -> ValueRef; /* all zeroes */ #[fast_ffi] pub fn LLVMConstAllOnes(Ty: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstICmp(Pred: c_ushort, V1: ValueRef, V2: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstFCmp(Pred: c_ushort, V1: ValueRef, V2: ValueRef) -> ValueRef; /* only for int/vector */ #[fast_ffi] pub fn LLVMGetUndef(Ty: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMIsConstant(Val: ValueRef) -> Bool; #[fast_ffi] pub fn LLVMIsNull(Val: ValueRef) -> Bool; #[fast_ffi] pub fn LLVMIsUndef(Val: ValueRef) -> Bool; #[fast_ffi] pub fn LLVMConstPointerNull(Ty: TypeRef) -> ValueRef; /* Operations on metadata */ #[fast_ffi] pub fn LLVMMDStringInContext(C: ContextRef, Str: *c_char, SLen: c_uint) -> ValueRef; #[fast_ffi] pub fn LLVMMDNodeInContext(C: ContextRef, Vals: *ValueRef, Count: c_uint) -> ValueRef; #[fast_ffi] pub fn LLVMAddNamedMetadataOperand(M: ModuleRef, Str: *c_char, Val: ValueRef); /* Operations on scalar constants */ #[fast_ffi] pub fn LLVMConstInt(IntTy: TypeRef, N: c_ulonglong, SignExtend: Bool) -> ValueRef; #[fast_ffi] pub fn LLVMConstIntOfString(IntTy: TypeRef, Text: *c_char, Radix: u8) -> ValueRef; #[fast_ffi] pub fn LLVMConstIntOfStringAndSize(IntTy: TypeRef, Text: *c_char, SLen: c_uint, Radix: u8) -> ValueRef; #[fast_ffi] pub fn LLVMConstReal(RealTy: TypeRef, N: f64) -> ValueRef; #[fast_ffi] pub fn LLVMConstRealOfString(RealTy: TypeRef, Text: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMConstRealOfStringAndSize(RealTy: TypeRef, Text: *c_char, SLen: c_uint) -> ValueRef; #[fast_ffi] pub fn LLVMConstIntGetZExtValue(ConstantVal: ValueRef) -> c_ulonglong; #[fast_ffi] pub fn LLVMConstIntGetSExtValue(ConstantVal: ValueRef) -> c_longlong; /* Operations on composite constants */ #[fast_ffi] pub fn LLVMConstStringInContext(C: ContextRef, Str: *c_char, Length: c_uint, DontNullTerminate: Bool) -> ValueRef; #[fast_ffi] pub fn LLVMConstStructInContext(C: ContextRef, ConstantVals: *ValueRef, Count: c_uint, Packed: Bool) -> ValueRef; #[fast_ffi] pub fn LLVMConstArray(ElementTy: TypeRef, ConstantVals: *ValueRef, Length: c_uint) -> ValueRef; #[fast_ffi] pub fn LLVMConstVector(ScalarConstantVals: *ValueRef, Size: c_uint) -> ValueRef; /* Constant expressions */ #[fast_ffi] pub fn LLVMAlignOf(Ty: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMSizeOf(Ty: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstNeg(ConstantVal: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstNSWNeg(ConstantVal: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstNUWNeg(ConstantVal: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstFNeg(ConstantVal: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstNot(ConstantVal: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstAdd(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstNSWAdd(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstNUWAdd(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstFAdd(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstSub(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstNSWSub(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstNUWSub(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstFSub(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstMul(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstNSWMul(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstNUWMul(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstFMul(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstUDiv(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstSDiv(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstExactSDiv(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstFDiv(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstURem(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstSRem(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstFRem(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstAnd(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstOr(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstXor(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstShl(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstLShr(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstAShr(LHSConstant: ValueRef, RHSConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstGEP(ConstantVal: ValueRef, ConstantIndices: *ValueRef, NumIndices: c_uint) -> ValueRef; #[fast_ffi] pub fn LLVMConstInBoundsGEP(ConstantVal: ValueRef, ConstantIndices: *ValueRef, NumIndices: c_uint) -> ValueRef; #[fast_ffi] pub fn LLVMConstTrunc(ConstantVal: ValueRef, ToType: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstSExt(ConstantVal: ValueRef, ToType: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstZExt(ConstantVal: ValueRef, ToType: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstFPTrunc(ConstantVal: ValueRef, ToType: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstFPExt(ConstantVal: ValueRef, ToType: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstUIToFP(ConstantVal: ValueRef, ToType: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstSIToFP(ConstantVal: ValueRef, ToType: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstFPToUI(ConstantVal: ValueRef, ToType: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstFPToSI(ConstantVal: ValueRef, ToType: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstPtrToInt(ConstantVal: ValueRef, ToType: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstIntToPtr(ConstantVal: ValueRef, ToType: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstBitCast(ConstantVal: ValueRef, ToType: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstZExtOrBitCast(ConstantVal: ValueRef, ToType: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstSExtOrBitCast(ConstantVal: ValueRef, ToType: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstTruncOrBitCast(ConstantVal: ValueRef, ToType: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstPointerCast(ConstantVal: ValueRef, ToType: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstIntCast(ConstantVal: ValueRef, ToType: TypeRef, isSigned: Bool) -> ValueRef; #[fast_ffi] pub fn LLVMConstFPCast(ConstantVal: ValueRef, ToType: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstSelect(ConstantCondition: ValueRef, ConstantIfTrue: ValueRef, ConstantIfFalse: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstExtractElement(VectorConstant: ValueRef, IndexConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstInsertElement(VectorConstant: ValueRef, ElementValueConstant: ValueRef, IndexConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstShuffleVector(VectorAConstant: ValueRef, VectorBConstant: ValueRef, MaskConstant: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMConstExtractValue(AggConstant: ValueRef, IdxList: *c_uint, NumIdx: c_uint) -> ValueRef; #[fast_ffi] pub fn LLVMConstInsertValue(AggConstant: ValueRef, ElementValueConstant: ValueRef, IdxList: *c_uint, NumIdx: c_uint) -> ValueRef; #[fast_ffi] pub fn LLVMConstInlineAsm(Ty: TypeRef, AsmString: *c_char, Constraints: *c_char, HasSideEffects: Bool, IsAlignStack: Bool) -> ValueRef; #[fast_ffi] pub fn LLVMBlockAddress(F: ValueRef, BB: BasicBlockRef) -> ValueRef; /* Operations on global variables, functions, and aliases (globals) */ #[fast_ffi] pub fn LLVMGetGlobalParent(Global: ValueRef) -> ModuleRef; #[fast_ffi] pub fn LLVMIsDeclaration(Global: ValueRef) -> Bool; #[fast_ffi] pub fn LLVMGetLinkage(Global: ValueRef) -> c_uint; #[fast_ffi] pub fn LLVMSetLinkage(Global: ValueRef, Link: c_uint); #[fast_ffi] pub fn LLVMGetSection(Global: ValueRef) -> *c_char; #[fast_ffi] pub fn LLVMSetSection(Global: ValueRef, Section: *c_char); #[fast_ffi] pub fn LLVMGetVisibility(Global: ValueRef) -> c_uint; #[fast_ffi] pub fn LLVMSetVisibility(Global: ValueRef, Viz: c_uint); #[fast_ffi] pub fn LLVMGetAlignment(Global: ValueRef) -> c_uint; #[fast_ffi] pub fn LLVMSetAlignment(Global: ValueRef, Bytes: c_uint); /* Operations on global variables */ #[fast_ffi] pub fn LLVMAddGlobal(M: ModuleRef, Ty: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMAddGlobalInAddressSpace(M: ModuleRef, Ty: TypeRef, Name: *c_char, AddressSpace: c_uint) -> ValueRef; #[fast_ffi] pub fn LLVMGetNamedGlobal(M: ModuleRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMGetFirstGlobal(M: ModuleRef) -> ValueRef; #[fast_ffi] pub fn LLVMGetLastGlobal(M: ModuleRef) -> ValueRef; #[fast_ffi] pub fn LLVMGetNextGlobal(GlobalVar: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMGetPreviousGlobal(GlobalVar: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMDeleteGlobal(GlobalVar: ValueRef); #[fast_ffi] pub fn LLVMGetInitializer(GlobalVar: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMSetInitializer(GlobalVar: ValueRef, ConstantVal: ValueRef); #[fast_ffi] pub fn LLVMIsThreadLocal(GlobalVar: ValueRef) -> Bool; #[fast_ffi] pub fn LLVMSetThreadLocal(GlobalVar: ValueRef, IsThreadLocal: Bool); #[fast_ffi] pub fn LLVMIsGlobalConstant(GlobalVar: ValueRef) -> Bool; #[fast_ffi] pub fn LLVMSetGlobalConstant(GlobalVar: ValueRef, IsConstant: Bool); /* Operations on aliases */ #[fast_ffi] pub fn LLVMAddAlias(M: ModuleRef, Ty: TypeRef, Aliasee: ValueRef, Name: *c_char) -> ValueRef; /* Operations on functions */ #[fast_ffi] pub fn LLVMAddFunction(M: ModuleRef, Name: *c_char, FunctionTy: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMGetNamedFunction(M: ModuleRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMGetFirstFunction(M: ModuleRef) -> ValueRef; #[fast_ffi] pub fn LLVMGetLastFunction(M: ModuleRef) -> ValueRef; #[fast_ffi] pub fn LLVMGetNextFunction(Fn: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMGetPreviousFunction(Fn: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMDeleteFunction(Fn: ValueRef); #[fast_ffi] pub fn LLVMGetOrInsertFunction(M: ModuleRef, Name: *c_char, FunctionTy: TypeRef) -> ValueRef; #[fast_ffi] pub fn LLVMGetIntrinsicID(Fn: ValueRef) -> c_uint; #[fast_ffi] pub fn LLVMGetFunctionCallConv(Fn: ValueRef) -> c_uint; #[fast_ffi] pub fn LLVMSetFunctionCallConv(Fn: ValueRef, CC: c_uint); #[fast_ffi] pub fn LLVMGetGC(Fn: ValueRef) -> *c_char; #[fast_ffi] pub fn LLVMSetGC(Fn: ValueRef, Name: *c_char); #[fast_ffi] pub fn LLVMAddFunctionAttr(Fn: ValueRef, PA: c_uint); #[fast_ffi] pub fn LLVMAddFunctionAttrString(Fn: ValueRef, Name: *c_char); #[fast_ffi] pub fn LLVMGetFunctionAttr(Fn: ValueRef) -> c_ulonglong; #[fast_ffi] pub fn LLVMRemoveFunctionAttr(Fn: ValueRef, PA: c_ulonglong, HighPA: c_ulonglong); /* Operations on parameters */ #[fast_ffi] pub fn LLVMCountParams(Fn: ValueRef) -> c_uint; #[fast_ffi] pub fn LLVMGetParams(Fn: ValueRef, Params: *ValueRef); #[fast_ffi] pub fn LLVMGetParam(Fn: ValueRef, Index: c_uint) -> ValueRef; #[fast_ffi] pub fn LLVMGetParamParent(Inst: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMGetFirstParam(Fn: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMGetLastParam(Fn: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMGetNextParam(Arg: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMGetPreviousParam(Arg: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMAddAttribute(Arg: ValueRef, PA: c_uint); #[fast_ffi] pub fn LLVMRemoveAttribute(Arg: ValueRef, PA: c_uint); #[fast_ffi] pub fn LLVMGetAttribute(Arg: ValueRef) -> c_uint; #[fast_ffi] pub fn LLVMSetParamAlignment(Arg: ValueRef, align: c_uint); /* Operations on basic blocks */ #[fast_ffi] pub fn LLVMBasicBlockAsValue(BB: BasicBlockRef) -> ValueRef; #[fast_ffi] pub fn LLVMValueIsBasicBlock(Val: ValueRef) -> Bool; #[fast_ffi] pub fn LLVMValueAsBasicBlock(Val: ValueRef) -> BasicBlockRef; #[fast_ffi] pub fn LLVMGetBasicBlockParent(BB: BasicBlockRef) -> ValueRef; #[fast_ffi] pub fn LLVMCountBasicBlocks(Fn: ValueRef) -> c_uint; #[fast_ffi] pub fn LLVMGetBasicBlocks(Fn: ValueRef, BasicBlocks: *ValueRef); #[fast_ffi] pub fn LLVMGetFirstBasicBlock(Fn: ValueRef) -> BasicBlockRef; #[fast_ffi] pub fn LLVMGetLastBasicBlock(Fn: ValueRef) -> BasicBlockRef; #[fast_ffi] pub fn LLVMGetNextBasicBlock(BB: BasicBlockRef) -> BasicBlockRef; #[fast_ffi] pub fn LLVMGetPreviousBasicBlock(BB: BasicBlockRef) -> BasicBlockRef; #[fast_ffi] pub fn LLVMGetEntryBasicBlock(Fn: ValueRef) -> BasicBlockRef; #[fast_ffi] pub fn LLVMAppendBasicBlockInContext(C: ContextRef, Fn: ValueRef, Name: *c_char) -> BasicBlockRef; #[fast_ffi] pub fn LLVMInsertBasicBlockInContext(C: ContextRef, BB: BasicBlockRef, Name: *c_char) -> BasicBlockRef; #[fast_ffi] pub fn LLVMDeleteBasicBlock(BB: BasicBlockRef); #[fast_ffi] pub fn LLVMMoveBasicBlockAfter(BB: BasicBlockRef, MoveAfter: BasicBlockRef); #[fast_ffi] pub fn LLVMMoveBasicBlockBefore(BB: BasicBlockRef, MoveBefore: BasicBlockRef); /* Operations on instructions */ #[fast_ffi] pub fn LLVMGetInstructionParent(Inst: ValueRef) -> BasicBlockRef; #[fast_ffi] pub fn LLVMGetFirstInstruction(BB: BasicBlockRef) -> ValueRef; #[fast_ffi] pub fn LLVMGetLastInstruction(BB: BasicBlockRef) -> ValueRef; #[fast_ffi] pub fn LLVMGetNextInstruction(Inst: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMGetPreviousInstruction(Inst: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMInstructionEraseFromParent(Inst: ValueRef); /* Operations on call sites */ #[fast_ffi] pub fn LLVMSetInstructionCallConv(Instr: ValueRef, CC: c_uint); #[fast_ffi] pub fn LLVMGetInstructionCallConv(Instr: ValueRef) -> c_uint; #[fast_ffi] pub fn LLVMAddInstrAttribute(Instr: ValueRef, index: c_uint, IA: c_uint); #[fast_ffi] pub fn LLVMRemoveInstrAttribute(Instr: ValueRef, index: c_uint, IA: c_uint); #[fast_ffi] pub fn LLVMSetInstrParamAlignment(Instr: ValueRef, index: c_uint, align: c_uint); /* Operations on call instructions (only) */ #[fast_ffi] pub fn LLVMIsTailCall(CallInst: ValueRef) -> Bool; #[fast_ffi] pub fn LLVMSetTailCall(CallInst: ValueRef, IsTailCall: Bool); /* Operations on phi nodes */ #[fast_ffi] pub fn LLVMAddIncoming(PhiNode: ValueRef, IncomingValues: *ValueRef, IncomingBlocks: *BasicBlockRef, Count: c_uint); #[fast_ffi] pub fn LLVMCountIncoming(PhiNode: ValueRef) -> c_uint; #[fast_ffi] pub fn LLVMGetIncomingValue(PhiNode: ValueRef, Index: c_uint) -> ValueRef; #[fast_ffi] pub fn LLVMGetIncomingBlock(PhiNode: ValueRef, Index: c_uint) -> BasicBlockRef; /* Instruction builders */ #[fast_ffi] pub fn LLVMCreateBuilderInContext(C: ContextRef) -> BuilderRef; #[fast_ffi] pub fn LLVMPositionBuilder(Builder: BuilderRef, Block: BasicBlockRef, Instr: ValueRef); #[fast_ffi] pub fn LLVMPositionBuilderBefore(Builder: BuilderRef, Instr: ValueRef); #[fast_ffi] pub fn LLVMPositionBuilderAtEnd(Builder: BuilderRef, Block: BasicBlockRef); #[fast_ffi] pub fn LLVMGetInsertBlock(Builder: BuilderRef) -> BasicBlockRef; #[fast_ffi] pub fn LLVMClearInsertionPosition(Builder: BuilderRef); #[fast_ffi] pub fn LLVMInsertIntoBuilder(Builder: BuilderRef, Instr: ValueRef); #[fast_ffi] pub fn LLVMInsertIntoBuilderWithName(Builder: BuilderRef, Instr: ValueRef, Name: *c_char); #[fast_ffi] pub fn LLVMDisposeBuilder(Builder: BuilderRef); #[fast_ffi] pub fn LLVMDisposeExecutionEngine(EE: ExecutionEngineRef); /* Metadata */ #[fast_ffi] pub fn LLVMSetCurrentDebugLocation(Builder: BuilderRef, L: ValueRef); #[fast_ffi] pub fn LLVMGetCurrentDebugLocation(Builder: BuilderRef) -> ValueRef; #[fast_ffi] pub fn LLVMSetInstDebugLocation(Builder: BuilderRef, Inst: ValueRef); /* Terminators */ #[fast_ffi] pub fn LLVMBuildRetVoid(B: BuilderRef) -> ValueRef; #[fast_ffi] pub fn LLVMBuildRet(B: BuilderRef, V: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMBuildAggregateRet(B: BuilderRef, RetVals: *ValueRef, N: c_uint) -> ValueRef; #[fast_ffi] pub fn LLVMBuildBr(B: BuilderRef, Dest: BasicBlockRef) -> ValueRef; #[fast_ffi] pub fn LLVMBuildCondBr(B: BuilderRef, If: ValueRef, Then: BasicBlockRef, Else: BasicBlockRef) -> ValueRef; #[fast_ffi] pub fn LLVMBuildSwitch(B: BuilderRef, V: ValueRef, Else: BasicBlockRef, NumCases: c_uint) -> ValueRef; #[fast_ffi] pub fn LLVMBuildIndirectBr(B: BuilderRef, Addr: ValueRef, NumDests: c_uint) -> ValueRef; #[fast_ffi] pub fn LLVMBuildInvoke(B: BuilderRef, Fn: ValueRef, Args: *ValueRef, NumArgs: c_uint, Then: BasicBlockRef, Catch: BasicBlockRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildLandingPad(B: BuilderRef, Ty: TypeRef, PersFn: ValueRef, NumClauses: c_uint, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildResume(B: BuilderRef, Exn: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMBuildUnreachable(B: BuilderRef) -> ValueRef; /* Add a case to the switch instruction */ #[fast_ffi] pub fn LLVMAddCase(Switch: ValueRef, OnVal: ValueRef, Dest: BasicBlockRef); /* Add a destination to the indirectbr instruction */ #[fast_ffi] pub fn LLVMAddDestination(IndirectBr: ValueRef, Dest: BasicBlockRef); /* Add a clause to the landing pad instruction */ #[fast_ffi] pub fn LLVMAddClause(LandingPad: ValueRef, ClauseVal: ValueRef); /* Set the cleanup on a landing pad instruction */ #[fast_ffi] pub fn LLVMSetCleanup(LandingPad: ValueRef, Val: Bool); /* Arithmetic */ #[fast_ffi] pub fn LLVMBuildAdd(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildNSWAdd(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildNUWAdd(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildFAdd(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildSub(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildNSWSub(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildNUWSub(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildFSub(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildMul(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildNSWMul(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildNUWMul(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildFMul(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildUDiv(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildSDiv(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildExactSDiv(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildFDiv(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildURem(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildSRem(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildFRem(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildShl(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildLShr(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildAShr(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildAnd(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildOr(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildXor(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildBinOp(B: BuilderRef, Op: Opcode, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildNeg(B: BuilderRef, V: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildNSWNeg(B: BuilderRef, V: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildNUWNeg(B: BuilderRef, V: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildFNeg(B: BuilderRef, V: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildNot(B: BuilderRef, V: ValueRef, Name: *c_char) -> ValueRef; /* Memory */ #[fast_ffi] pub fn LLVMBuildMalloc(B: BuilderRef, Ty: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildArrayMalloc(B: BuilderRef, Ty: TypeRef, Val: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildAlloca(B: BuilderRef, Ty: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildArrayAlloca(B: BuilderRef, Ty: TypeRef, Val: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildFree(B: BuilderRef, PointerVal: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMBuildLoad(B: BuilderRef, PointerVal: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildStore(B: BuilderRef, Val: ValueRef, Ptr: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMBuildGEP(B: BuilderRef, Pointer: ValueRef, Indices: *ValueRef, NumIndices: c_uint, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildInBoundsGEP(B: BuilderRef, Pointer: ValueRef, Indices: *ValueRef, NumIndices: c_uint, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildStructGEP(B: BuilderRef, Pointer: ValueRef, Idx: c_uint, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildGlobalString(B: BuilderRef, Str: *c_char, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildGlobalStringPtr(B: BuilderRef, Str: *c_char, Name: *c_char) -> ValueRef; /* Casts */ #[fast_ffi] pub fn LLVMBuildTrunc(B: BuilderRef, Val: ValueRef, DestTy: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildZExt(B: BuilderRef, Val: ValueRef, DestTy: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildSExt(B: BuilderRef, Val: ValueRef, DestTy: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildFPToUI(B: BuilderRef, Val: ValueRef, DestTy: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildFPToSI(B: BuilderRef, Val: ValueRef, DestTy: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildUIToFP(B: BuilderRef, Val: ValueRef, DestTy: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildSIToFP(B: BuilderRef, Val: ValueRef, DestTy: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildFPTrunc(B: BuilderRef, Val: ValueRef, DestTy: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildFPExt(B: BuilderRef, Val: ValueRef, DestTy: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildPtrToInt(B: BuilderRef, Val: ValueRef, DestTy: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildIntToPtr(B: BuilderRef, Val: ValueRef, DestTy: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildBitCast(B: BuilderRef, Val: ValueRef, DestTy: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildZExtOrBitCast(B: BuilderRef, Val: ValueRef, DestTy: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildSExtOrBitCast(B: BuilderRef, Val: ValueRef, DestTy: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildTruncOrBitCast(B: BuilderRef, Val: ValueRef, DestTy: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildCast(B: BuilderRef, Op: Opcode, Val: ValueRef, DestTy: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildPointerCast(B: BuilderRef, Val: ValueRef, DestTy: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildIntCast(B: BuilderRef, Val: ValueRef, DestTy: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildFPCast(B: BuilderRef, Val: ValueRef, DestTy: TypeRef, Name: *c_char) -> ValueRef; /* Comparisons */ #[fast_ffi] pub fn LLVMBuildICmp(B: BuilderRef, Op: c_uint, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildFCmp(B: BuilderRef, Op: c_uint, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; /* Miscellaneous instructions */ #[fast_ffi] pub fn LLVMBuildPhi(B: BuilderRef, Ty: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildCall(B: BuilderRef, Fn: ValueRef, Args: *ValueRef, NumArgs: c_uint, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildSelect(B: BuilderRef, If: ValueRef, Then: ValueRef, Else: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildVAArg(B: BuilderRef, list: ValueRef, Ty: TypeRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildExtractElement(B: BuilderRef, VecVal: ValueRef, Index: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildInsertElement(B: BuilderRef, VecVal: ValueRef, EltVal: ValueRef, Index: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildShuffleVector(B: BuilderRef, V1: ValueRef, V2: ValueRef, Mask: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildExtractValue(B: BuilderRef, AggVal: ValueRef, Index: c_uint, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildInsertValue(B: BuilderRef, AggVal: ValueRef, EltVal: ValueRef, Index: c_uint, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildIsNull(B: BuilderRef, Val: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildIsNotNull(B: BuilderRef, Val: ValueRef, Name: *c_char) -> ValueRef; #[fast_ffi] pub fn LLVMBuildPtrDiff(B: BuilderRef, LHS: ValueRef, RHS: ValueRef, Name: *c_char) -> ValueRef; /* Atomic Operations */ pub fn LLVMBuildAtomicLoad(B: BuilderRef, PointerVal: ValueRef, Name: *c_char, Order: AtomicOrdering, Alignment: c_uint) -> ValueRef; pub fn LLVMBuildAtomicStore(B: BuilderRef, Val: ValueRef, Ptr: ValueRef, Order: AtomicOrdering, Alignment: c_uint) -> ValueRef; pub fn LLVMBuildAtomicCmpXchg(B: BuilderRef, LHS: ValueRef, CMP: ValueRef, RHS: ValueRef, Order: AtomicOrdering) -> ValueRef; pub fn LLVMBuildAtomicRMW(B: BuilderRef, Op: AtomicBinOp, LHS: ValueRef, RHS: ValueRef, Order: AtomicOrdering, SingleThreaded: Bool) -> ValueRef; pub fn LLVMBuildAtomicFence(B: BuilderRef, Order: AtomicOrdering); /* Selected entries from the downcasts. */ #[fast_ffi] pub fn LLVMIsATerminatorInst(Inst: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMIsAStoreInst(Inst: ValueRef) -> ValueRef; /** Writes a module to the specified path. Returns 0 on success. */ #[fast_ffi] pub fn LLVMWriteBitcodeToFile(M: ModuleRef, Path: *c_char) -> c_int; /** Creates target data from a target layout string. */ #[fast_ffi] pub fn LLVMCreateTargetData(StringRep: *c_char) -> TargetDataRef; /// Adds the target data to the given pass manager. The pass manager /// references the target data only weakly. #[fast_ffi] pub fn LLVMAddTargetData(TD: TargetDataRef, PM: PassManagerRef); /** Number of bytes clobbered when doing a Store to *T. */ #[fast_ffi] pub fn LLVMStoreSizeOfType(TD: TargetDataRef, Ty: TypeRef) -> c_ulonglong; /** Number of bytes clobbered when doing a Store to *T. */ #[fast_ffi] pub fn LLVMSizeOfTypeInBits(TD: TargetDataRef, Ty: TypeRef) -> c_ulonglong; /** Distance between successive elements in an array of T. Includes ABI padding. */ #[fast_ffi] pub fn LLVMABISizeOfType(TD: TargetDataRef, Ty: TypeRef) -> c_uint; /** Returns the preferred alignment of a type. */ #[fast_ffi] pub fn LLVMPreferredAlignmentOfType(TD: TargetDataRef, Ty: TypeRef) -> c_uint; /** Returns the minimum alignment of a type. */ #[fast_ffi] pub fn LLVMABIAlignmentOfType(TD: TargetDataRef, Ty: TypeRef) -> c_uint; /// Computes the byte offset of the indexed struct element for a /// target. #[fast_ffi] pub fn LLVMOffsetOfElement(TD: TargetDataRef, StructTy: TypeRef, Element: c_uint) -> c_ulonglong; /** * Returns the minimum alignment of a type when part of a call frame. */ #[fast_ffi] pub fn LLVMCallFrameAlignmentOfType(TD: TargetDataRef, Ty: TypeRef) -> c_uint; /** Disposes target data. */ #[fast_ffi] pub fn LLVMDisposeTargetData(TD: TargetDataRef); /** Creates a pass manager. */ #[fast_ffi] pub fn LLVMCreatePassManager() -> PassManagerRef; /** Creates a function-by-function pass manager */ #[fast_ffi] pub fn LLVMCreateFunctionPassManagerForModule(M: ModuleRef) -> PassManagerRef; /** Disposes a pass manager. */ #[fast_ffi] pub fn LLVMDisposePassManager(PM: PassManagerRef); /** Runs a pass manager on a module. */ #[fast_ffi] pub fn LLVMRunPassManager(PM: PassManagerRef, M: ModuleRef) -> Bool; /** Runs the function passes on the provided function. */ #[fast_ffi] pub fn LLVMRunFunctionPassManager(FPM: PassManagerRef, F: ValueRef) -> Bool; /** Initializes all the function passes scheduled in the manager */ #[fast_ffi] pub fn LLVMInitializeFunctionPassManager(FPM: PassManagerRef) -> Bool; /** Finalizes all the function passes scheduled in the manager */ #[fast_ffi] pub fn LLVMFinalizeFunctionPassManager(FPM: PassManagerRef) -> Bool; #[fast_ffi] pub fn LLVMInitializePasses(); #[fast_ffi] pub fn LLVMAddPass(PM: PassManagerRef, P: PassRef); #[fast_ffi] pub fn LLVMCreatePass(PassName: *c_char) -> PassRef; #[fast_ffi] pub fn LLVMDestroyPass(P: PassRef); /** Adds a verification pass. */ #[fast_ffi] pub fn LLVMAddVerifierPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddGlobalOptimizerPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddIPSCCPPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddDeadArgEliminationPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddInstructionCombiningPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddCFGSimplificationPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddFunctionInliningPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddFunctionAttrsPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddScalarReplAggregatesPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddScalarReplAggregatesPassSSA(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddJumpThreadingPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddConstantPropagationPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddReassociatePass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddLoopRotatePass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddLICMPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddLoopUnswitchPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddLoopDeletionPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddLoopUnrollPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddGVNPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddMemCpyOptPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddSCCPPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddDeadStoreEliminationPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddStripDeadPrototypesPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddConstantMergePass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddArgumentPromotionPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddTailCallEliminationPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddIndVarSimplifyPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddAggressiveDCEPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddGlobalDCEPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddCorrelatedValuePropagationPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddPruneEHPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddSimplifyLibCallsPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddLoopIdiomPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddEarlyCSEPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddTypeBasedAliasAnalysisPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMAddBasicAliasAnalysisPass(PM: PassManagerRef); #[fast_ffi] pub fn LLVMPassManagerBuilderCreate() -> PassManagerBuilderRef; #[fast_ffi] pub fn LLVMPassManagerBuilderDispose(PMB: PassManagerBuilderRef); #[fast_ffi] pub fn LLVMPassManagerBuilderSetOptLevel(PMB: PassManagerBuilderRef, OptimizationLevel: c_uint); #[fast_ffi] pub fn LLVMPassManagerBuilderSetSizeLevel(PMB: PassManagerBuilderRef, Value: Bool); #[fast_ffi] pub fn LLVMPassManagerBuilderSetDisableUnitAtATime( PMB: PassManagerBuilderRef, Value: Bool); #[fast_ffi] pub fn LLVMPassManagerBuilderSetDisableUnrollLoops( PMB: PassManagerBuilderRef, Value: Bool); #[fast_ffi] pub fn LLVMPassManagerBuilderSetDisableSimplifyLibCalls( PMB: PassManagerBuilderRef, Value: Bool); #[fast_ffi] pub fn LLVMPassManagerBuilderUseInlinerWithThreshold( PMB: PassManagerBuilderRef, threshold: c_uint); #[fast_ffi] pub fn LLVMPassManagerBuilderPopulateModulePassManager( PMB: PassManagerBuilderRef, PM: PassManagerRef); #[fast_ffi] pub fn LLVMPassManagerBuilderPopulateFunctionPassManager( PMB: PassManagerBuilderRef, PM: PassManagerRef); /** Destroys a memory buffer. */ #[fast_ffi] pub fn LLVMDisposeMemoryBuffer(MemBuf: MemoryBufferRef); /* Stuff that's in rustllvm/ because it's not upstream yet. */ /** Opens an object file. */ #[fast_ffi] pub fn LLVMCreateObjectFile(MemBuf: MemoryBufferRef) -> ObjectFileRef; /** Closes an object file. */ #[fast_ffi] pub fn LLVMDisposeObjectFile(ObjFile: ObjectFileRef); /** Enumerates the sections in an object file. */ #[fast_ffi] pub fn LLVMGetSections(ObjFile: ObjectFileRef) -> SectionIteratorRef; /** Destroys a section iterator. */ #[fast_ffi] pub fn LLVMDisposeSectionIterator(SI: SectionIteratorRef); /** Returns true if the section iterator is at the end of the section list: */ #[fast_ffi] pub fn LLVMIsSectionIteratorAtEnd(ObjFile: ObjectFileRef, SI: SectionIteratorRef) -> Bool; /** Moves the section iterator to point to the next section. */ #[fast_ffi] pub fn LLVMMoveToNextSection(SI: SectionIteratorRef); /** Returns the current section name. */ #[fast_ffi] pub fn LLVMGetSectionName(SI: SectionIteratorRef) -> *c_char; /** Returns the current section size. */ #[fast_ffi] pub fn LLVMGetSectionSize(SI: SectionIteratorRef) -> c_ulonglong; /** Returns the current section contents as a string buffer. */ #[fast_ffi] pub fn LLVMGetSectionContents(SI: SectionIteratorRef) -> *c_char; /** Reads the given file and returns it as a memory buffer. Use LLVMDisposeMemoryBuffer() to get rid of it. */ #[fast_ffi] pub fn LLVMRustCreateMemoryBufferWithContentsOfFile(Path: *c_char) -> MemoryBufferRef; #[fast_ffi] pub fn LLVMRustWriteOutputFile(PM: PassManagerRef, M: ModuleRef, Triple: *c_char, Cpu: *c_char, Feature: *c_char, Output: *c_char, // FIXME: When #2334 is fixed, // change c_uint to FileType FileType: c_uint, OptLevel: c_int, EnableSegmentedStacks: bool) -> bool; /** Returns a string describing the last error caused by an LLVMRust* call. */ #[fast_ffi] pub fn LLVMRustGetLastError() -> *c_char; /** Prepare the JIT. Returns a memory manager that can load crates. */ #[fast_ffi] pub fn LLVMRustPrepareJIT(__morestack: *()) -> *(); /** Load a crate into the memory manager. */ #[fast_ffi] pub fn LLVMRustLoadCrate(MM: *(), Filename: *c_char) -> bool; /** Execute the JIT engine. */ #[fast_ffi] pub fn LLVMRustBuildJIT(MM: *(), M: ModuleRef, EnableSegmentedStacks: bool) -> ExecutionEngineRef; /** Parses the bitcode in the given memory buffer. */ #[fast_ffi] pub fn LLVMRustParseBitcode(MemBuf: MemoryBufferRef) -> ModuleRef; /** Parses LLVM asm in the given file */ #[fast_ffi] pub fn LLVMRustParseAssemblyFile(Filename: *c_char, C: ContextRef) -> ModuleRef; #[fast_ffi] pub fn LLVMRustAddPrintModulePass(PM: PassManagerRef, M: ModuleRef, Output: *c_char); /** Turn on LLVM pass-timing. */ #[fast_ffi] pub fn LLVMRustEnableTimePasses(); /// Print the pass timings since static dtors aren't picking them up. #[fast_ffi] pub fn LLVMRustPrintPassTimings(); #[fast_ffi] pub fn LLVMRustStartMultithreading() -> bool; #[fast_ffi] pub fn LLVMStructCreateNamed(C: ContextRef, Name: *c_char) -> TypeRef; #[fast_ffi] pub fn LLVMStructSetBody(StructTy: TypeRef, ElementTypes: *TypeRef, ElementCount: c_uint, Packed: Bool); #[fast_ffi] pub fn LLVMConstNamedStruct(S: TypeRef, ConstantVals: *ValueRef, Count: c_uint) -> ValueRef; /** Enables LLVM debug output. */ #[fast_ffi] pub fn LLVMSetDebug(Enabled: c_int); /** Prepares inline assembly. */ #[fast_ffi] pub fn LLVMInlineAsm(Ty: TypeRef, AsmString: *c_char, Constraints: *c_char, SideEffects: Bool, AlignStack: Bool, Dialect: c_uint) -> ValueRef; #[fast_ffi] pub fn LLVMDIBuilderCreate(M: ModuleRef) -> DIBuilderRef; #[fast_ffi] pub fn LLVMDIBuilderDispose(Builder: DIBuilderRef); #[fast_ffi] pub fn LLVMDIBuilderFinalize(Builder: DIBuilderRef); #[fast_ffi] pub fn LLVMDIBuilderCreateCompileUnit(Builder: DIBuilderRef, Lang: c_uint, File: *c_char, Dir: *c_char, Producer: *c_char, isOptimized: bool, Flags: *c_char, RuntimeVer: c_uint, SplitName: *c_char); #[fast_ffi] pub fn LLVMDIBuilderCreateFile(Builder: DIBuilderRef, Filename: *c_char, Directory: *c_char) -> DIFile; #[fast_ffi] pub fn LLVMDIBuilderCreateSubroutineType(Builder: DIBuilderRef, File: DIFile, ParameterTypes: DIArray) -> DICompositeType; #[fast_ffi] pub fn LLVMDIBuilderCreateFunction(Builder: DIBuilderRef, Scope: DIDescriptor, Name: *c_char, LinkageName: *c_char, File: DIFile, LineNo: c_uint, Ty: DIType, isLocalToUnit: bool, isDefinition: bool, ScopeLine: c_uint, Flags: c_uint, isOptimized: bool, Fn: ValueRef, TParam: ValueRef, Decl: ValueRef) -> DISubprogram; #[fast_ffi] pub fn LLVMDIBuilderCreateBasicType(Builder: DIBuilderRef, Name: *c_char, SizeInBits: c_ulonglong, AlignInBits: c_ulonglong, Encoding: c_uint) -> DIBasicType; #[fast_ffi] pub fn LLVMDIBuilderCreatePointerType(Builder: DIBuilderRef, PointeeTy: DIType, SizeInBits: c_ulonglong, AlignInBits: c_ulonglong, Name: *c_char) -> DIDerivedType; #[fast_ffi] pub fn LLVMDIBuilderCreateStructType(Builder: DIBuilderRef, Scope: DIDescriptor, Name: *c_char, File: DIFile, LineNumber: c_uint, SizeInBits: c_ulonglong, AlignInBits: c_ulonglong, Flags: c_uint, DerivedFrom: DIType, Elements: DIArray, RunTimeLang: c_uint, VTableHolder: ValueRef) -> DICompositeType; #[fast_ffi] pub fn LLVMDIBuilderCreateMemberType(Builder: DIBuilderRef, Scope: DIDescriptor, Name: *c_char, File: DIFile, LineNo: c_uint, SizeInBits: c_ulonglong, AlignInBits: c_ulonglong, OffsetInBits: c_ulonglong, Flags: c_uint, Ty: DIType) -> DIDerivedType; #[fast_ffi] pub fn LLVMDIBuilderCreateLexicalBlock(Builder: DIBuilderRef, Scope: DIDescriptor, File: DIFile, Line: c_uint, Col: c_uint) -> DILexicalBlock; #[fast_ffi] pub fn LLVMDIBuilderCreateLocalVariable(Builder: DIBuilderRef, Tag: c_uint, Scope: DIDescriptor, Name: *c_char, File: DIFile, LineNo: c_uint, Ty: DIType, AlwaysPreserve: bool, Flags: c_uint, ArgNo: c_uint) -> DIVariable; #[fast_ffi] pub fn LLVMDIBuilderCreateArrayType(Builder: DIBuilderRef, Size: c_ulonglong, AlignInBits: c_ulonglong, Ty: DIType, Subscripts: DIArray) -> DIType; #[fast_ffi] pub fn LLVMDIBuilderCreateVectorType(Builder: DIBuilderRef, Size: c_ulonglong, AlignInBits: c_ulonglong, Ty: DIType, Subscripts: DIArray) -> DIType; #[fast_ffi] pub fn LLVMDIBuilderGetOrCreateSubrange(Builder: DIBuilderRef, Lo: c_longlong, Count: c_longlong) -> DISubrange; #[fast_ffi] pub fn LLVMDIBuilderGetOrCreateArray(Builder: DIBuilderRef, Ptr: *DIDescriptor, Count: c_uint) -> DIArray; #[fast_ffi] pub fn LLVMDIBuilderInsertDeclareAtEnd(Builder: DIBuilderRef, Val: ValueRef, VarInfo: DIVariable, InsertAtEnd: BasicBlockRef) -> ValueRef; #[fast_ffi] pub fn LLVMDIBuilderInsertDeclareBefore(Builder: DIBuilderRef, Val: ValueRef, VarInfo: DIVariable, InsertBefore: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMDIBuilderCreateEnumerator(Builder: DIBuilderRef, Name: *c_char, Val: c_ulonglong) -> ValueRef; #[fast_ffi] pub fn LLVMDIBuilderCreateEnumerationType(Builder: DIBuilderRef, Scope: ValueRef, Name: *c_char, File: ValueRef, LineNumber: c_uint, SizeInBits: c_ulonglong, AlignInBits: c_ulonglong, Elements: ValueRef, ClassType: ValueRef) -> ValueRef; #[fast_ffi] pub fn LLVMDIBuilderCreateUnionType(Builder: DIBuilderRef, Scope: ValueRef, Name: *c_char, File: ValueRef, LineNumber: c_uint, SizeInBits: c_ulonglong, AlignInBits: c_ulonglong, Flags: c_uint, Elements: ValueRef, RunTimeLang: c_uint) -> ValueRef; #[fast_ffi] pub fn LLVMSetUnnamedAddr(GlobalVar: ValueRef, UnnamedAddr: Bool); #[fast_ffi] pub fn LLVMDIBuilderCreateTemplateTypeParameter(Builder: DIBuilderRef, Scope: ValueRef, Name: *c_char, Ty: ValueRef, File: ValueRef, LineNo: c_uint, ColumnNo: c_uint) -> ValueRef; } } pub fn SetInstructionCallConv(Instr: ValueRef, CC: CallConv) { unsafe { llvm::LLVMSetInstructionCallConv(Instr, CC as c_uint); } } pub fn SetFunctionCallConv(Fn: ValueRef, CC: CallConv) { unsafe { llvm::LLVMSetFunctionCallConv(Fn, CC as c_uint); } } pub fn SetLinkage(Global: ValueRef, Link: Linkage) { unsafe { llvm::LLVMSetLinkage(Global, Link as c_uint); } } pub fn SetUnnamedAddr(Global: ValueRef, Unnamed: bool) { unsafe { llvm::LLVMSetUnnamedAddr(Global, Unnamed as Bool); } } pub fn ConstICmp(Pred: IntPredicate, V1: ValueRef, V2: ValueRef) -> ValueRef { unsafe { llvm::LLVMConstICmp(Pred as c_ushort, V1, V2) } } pub fn ConstFCmp(Pred: RealPredicate, V1: ValueRef, V2: ValueRef) -> ValueRef { unsafe { llvm::LLVMConstFCmp(Pred as c_ushort, V1, V2) } } pub fn SetFunctionAttribute(Fn: ValueRef, attr: Attribute) { unsafe { llvm::LLVMAddFunctionAttr(Fn, attr as c_uint) } } /* Memory-managed object interface to type handles. */ pub struct TypeNames { type_names: HashMap, named_types: HashMap<~str, TypeRef> } impl TypeNames { pub fn new() -> TypeNames { TypeNames { type_names: HashMap::new(), named_types: HashMap::new() } } pub fn associate_type(&mut self, s: &str, t: &Type) { assert!(self.type_names.insert(t.to_ref(), s.to_owned())); assert!(self.named_types.insert(s.to_owned(), t.to_ref())); } pub fn find_name<'r>(&'r self, ty: &Type) -> Option<&'r str> { match self.type_names.find(&ty.to_ref()) { Some(a) => Some(a.slice(0, a.len())), None => None } } pub fn find_type(&self, s: &str) -> Option { self.named_types.find_equiv(&s).map_move(|x| Type::from_ref(*x)) } // We have a depth count, because we seem to make infinite types. pub fn type_to_str_depth(&self, ty: Type, depth: int) -> ~str { match self.find_name(&ty) { option::Some(name) => return name.to_owned(), None => () } if depth == 0 { return ~"###"; } unsafe { let kind = ty.kind(); match kind { Void => ~"Void", Half => ~"Half", Float => ~"Float", Double => ~"Double", X86_FP80 => ~"X86_FP80", FP128 => ~"FP128", PPC_FP128 => ~"PPC_FP128", Label => ~"Label", Vector => ~"Vector", Metadata => ~"Metadata", X86_MMX => ~"X86_MMAX", Integer => { fmt!("i%d", llvm::LLVMGetIntTypeWidth(ty.to_ref()) as int) } Function => { let out_ty = ty.return_type(); let args = ty.func_params(); let args = args.map(|&ty| self.type_to_str_depth(ty, depth-1)).connect(", "); let out_ty = self.type_to_str_depth(out_ty, depth-1); fmt!("fn(%s) -> %s", args, out_ty) } Struct => { let tys = ty.field_types(); let tys = tys.map(|&ty| self.type_to_str_depth(ty, depth-1)).connect(", "); fmt!("{%s}", tys) } Array => { let el_ty = ty.element_type(); let el_ty = self.type_to_str_depth(el_ty, depth-1); let len = ty.array_length(); fmt!("[%s x %u]", el_ty, len) } Pointer => { let el_ty = ty.element_type(); let el_ty = self.type_to_str_depth(el_ty, depth-1); fmt!("*%s", el_ty) } _ => fail!("Unknown Type Kind (%u)", kind as uint) } } } pub fn type_to_str(&self, ty: Type) -> ~str { self.type_to_str_depth(ty, 30) } pub fn types_to_str(&self, tys: &[Type]) -> ~str { let strs = tys.map(|t| self.type_to_str(*t)); fmt!("[%s]", strs.connect(",")) } pub fn val_to_str(&self, val: ValueRef) -> ~str { unsafe { let ty = Type::from_ref(llvm::LLVMTypeOf(val)); self.type_to_str(ty) } } } /* Memory-managed interface to target data. */ pub struct target_data_res { TD: TargetDataRef, } impl Drop for target_data_res { fn drop(&self) { unsafe { llvm::LLVMDisposeTargetData(self.TD); } } } pub fn target_data_res(TD: TargetDataRef) -> target_data_res { target_data_res { TD: TD } } pub struct TargetData { lltd: TargetDataRef, dtor: @target_data_res } pub fn mk_target_data(string_rep: &str) -> TargetData { let lltd = do string_rep.with_c_str |buf| { unsafe { llvm::LLVMCreateTargetData(buf) } }; TargetData { lltd: lltd, dtor: @target_data_res(lltd) } } /* Memory-managed interface to pass managers. */ pub struct pass_manager_res { PM: PassManagerRef, } impl Drop for pass_manager_res { fn drop(&self) { unsafe { llvm::LLVMDisposePassManager(self.PM); } } } pub fn pass_manager_res(PM: PassManagerRef) -> pass_manager_res { pass_manager_res { PM: PM } } pub struct PassManager { llpm: PassManagerRef, dtor: @pass_manager_res } pub fn mk_pass_manager() -> PassManager { unsafe { let llpm = llvm::LLVMCreatePassManager(); PassManager { llpm: llpm, dtor: @pass_manager_res(llpm) } } } /* Memory-managed interface to object files. */ pub struct object_file_res { ObjectFile: ObjectFileRef, } impl Drop for object_file_res { fn drop(&self) { unsafe { llvm::LLVMDisposeObjectFile(self.ObjectFile); } } } pub fn object_file_res(ObjFile: ObjectFileRef) -> object_file_res { object_file_res { ObjectFile: ObjFile } } pub struct ObjectFile { llof: ObjectFileRef, dtor: @object_file_res } pub fn mk_object_file(llmb: MemoryBufferRef) -> Option { unsafe { let llof = llvm::LLVMCreateObjectFile(llmb); if llof as int == 0 { return option::None::; } option::Some(ObjectFile { llof: llof, dtor: @object_file_res(llof) }) } } /* Memory-managed interface to section iterators. */ pub struct section_iter_res { SI: SectionIteratorRef, } impl Drop for section_iter_res { fn drop(&self) { unsafe { llvm::LLVMDisposeSectionIterator(self.SI); } } } pub fn section_iter_res(SI: SectionIteratorRef) -> section_iter_res { section_iter_res { SI: SI } } pub struct SectionIter { llsi: SectionIteratorRef, dtor: @section_iter_res } pub fn mk_section_iter(llof: ObjectFileRef) -> SectionIter { unsafe { let llsi = llvm::LLVMGetSections(llof); SectionIter { llsi: llsi, dtor: @section_iter_res(llsi) } } }