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| //===- ir.go - Bindings for ir --------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file defines bindings for the ir component.
//
//===----------------------------------------------------------------------===//
package llvm
/*
#include "llvm-c/Core.h"
#include "llvm-c/Comdat.h"
#include "IRBindings.h"
#include <stdlib.h>
*/
import "C"
import "unsafe"
import "errors"
type (
// We use these weird structs here because *Ref types are pointers and
// Go's spec says that a pointer cannot be used as a receiver base type.
Context struct {
C C.LLVMContextRef
}
Module struct {
C C.LLVMModuleRef
}
Type struct {
C C.LLVMTypeRef
}
Value struct {
C C.LLVMValueRef
}
Comdat struct {
C C.LLVMComdatRef
}
BasicBlock struct {
C C.LLVMBasicBlockRef
}
Builder struct {
C C.LLVMBuilderRef
}
ModuleProvider struct {
C C.LLVMModuleProviderRef
}
MemoryBuffer struct {
C C.LLVMMemoryBufferRef
}
PassManager struct {
C C.LLVMPassManagerRef
}
Use struct {
C C.LLVMUseRef
}
Metadata struct {
C C.LLVMMetadataRef
}
Attribute struct {
C C.LLVMAttributeRef
}
Opcode C.LLVMOpcode
AtomicRMWBinOp C.LLVMAtomicRMWBinOp
AtomicOrdering C.LLVMAtomicOrdering
TypeKind C.LLVMTypeKind
Linkage C.LLVMLinkage
Visibility C.LLVMVisibility
CallConv C.LLVMCallConv
ComdatSelectionKind C.LLVMComdatSelectionKind
IntPredicate C.LLVMIntPredicate
FloatPredicate C.LLVMRealPredicate
LandingPadClause C.LLVMLandingPadClauseTy
InlineAsmDialect C.LLVMInlineAsmDialect
)
func (c Context) IsNil() bool { return c.C == nil }
func (c Module) IsNil() bool { return c.C == nil }
func (c Type) IsNil() bool { return c.C == nil }
func (c Value) IsNil() bool { return c.C == nil }
func (c BasicBlock) IsNil() bool { return c.C == nil }
func (c Builder) IsNil() bool { return c.C == nil }
func (c ModuleProvider) IsNil() bool { return c.C == nil }
func (c MemoryBuffer) IsNil() bool { return c.C == nil }
func (c PassManager) IsNil() bool { return c.C == nil }
func (c Use) IsNil() bool { return c.C == nil }
func (c Attribute) IsNil() bool { return c.C == nil }
func (c Metadata) IsNil() bool { return c.C == nil }
// helpers
func llvmTypeRefPtr(t *Type) *C.LLVMTypeRef { return (*C.LLVMTypeRef)(unsafe.Pointer(t)) }
func llvmValueRefPtr(t *Value) *C.LLVMValueRef { return (*C.LLVMValueRef)(unsafe.Pointer(t)) }
func llvmMetadataRefPtr(t *Metadata) *C.LLVMMetadataRef {
return (*C.LLVMMetadataRef)(unsafe.Pointer(t))
}
func llvmBasicBlockRefPtr(t *BasicBlock) *C.LLVMBasicBlockRef {
return (*C.LLVMBasicBlockRef)(unsafe.Pointer(t))
}
func boolToLLVMBool(b bool) C.LLVMBool {
if b {
return C.LLVMBool(1)
}
return C.LLVMBool(0)
}
func llvmValueRefs(values []Value) (*C.LLVMValueRef, C.unsigned) {
var pt *C.LLVMValueRef
ptlen := C.unsigned(len(values))
if ptlen > 0 {
pt = llvmValueRefPtr(&values[0])
}
return pt, ptlen
}
func llvmMetadataRefs(mds []Metadata) (*C.LLVMMetadataRef, C.unsigned) {
var pt *C.LLVMMetadataRef
ptlen := C.unsigned(len(mds))
if ptlen > 0 {
pt = llvmMetadataRefPtr(&mds[0])
}
return pt, ptlen
}
//-------------------------------------------------------------------------
// llvm.Opcode
//-------------------------------------------------------------------------
const (
Ret Opcode = C.LLVMRet
Br Opcode = C.LLVMBr
Switch Opcode = C.LLVMSwitch
IndirectBr Opcode = C.LLVMIndirectBr
Invoke Opcode = C.LLVMInvoke
Unreachable Opcode = C.LLVMUnreachable
// Standard Binary Operators
Add Opcode = C.LLVMAdd
FAdd Opcode = C.LLVMFAdd
Sub Opcode = C.LLVMSub
FSub Opcode = C.LLVMFSub
Mul Opcode = C.LLVMMul
FMul Opcode = C.LLVMFMul
UDiv Opcode = C.LLVMUDiv
SDiv Opcode = C.LLVMSDiv
FDiv Opcode = C.LLVMFDiv
URem Opcode = C.LLVMURem
SRem Opcode = C.LLVMSRem
FRem Opcode = C.LLVMFRem
// Logical Operators
Shl Opcode = C.LLVMShl
LShr Opcode = C.LLVMLShr
AShr Opcode = C.LLVMAShr
And Opcode = C.LLVMAnd
Or Opcode = C.LLVMOr
Xor Opcode = C.LLVMXor
// Memory Operators
Alloca Opcode = C.LLVMAlloca
Load Opcode = C.LLVMLoad
Store Opcode = C.LLVMStore
GetElementPtr Opcode = C.LLVMGetElementPtr
// Cast Operators
Trunc Opcode = C.LLVMTrunc
ZExt Opcode = C.LLVMZExt
SExt Opcode = C.LLVMSExt
FPToUI Opcode = C.LLVMFPToUI
FPToSI Opcode = C.LLVMFPToSI
UIToFP Opcode = C.LLVMUIToFP
SIToFP Opcode = C.LLVMSIToFP
FPTrunc Opcode = C.LLVMFPTrunc
FPExt Opcode = C.LLVMFPExt
PtrToInt Opcode = C.LLVMPtrToInt
IntToPtr Opcode = C.LLVMIntToPtr
BitCast Opcode = C.LLVMBitCast
// Other Operators
ICmp Opcode = C.LLVMICmp
FCmp Opcode = C.LLVMFCmp
PHI Opcode = C.LLVMPHI
Call Opcode = C.LLVMCall
Select Opcode = C.LLVMSelect
// UserOp1
// UserOp2
VAArg Opcode = C.LLVMVAArg
ExtractElement Opcode = C.LLVMExtractElement
InsertElement Opcode = C.LLVMInsertElement
ShuffleVector Opcode = C.LLVMShuffleVector
ExtractValue Opcode = C.LLVMExtractValue
InsertValue Opcode = C.LLVMInsertValue
)
const (
AtomicRMWBinOpXchg AtomicRMWBinOp = C.LLVMAtomicRMWBinOpXchg
AtomicRMWBinOpAdd AtomicRMWBinOp = C.LLVMAtomicRMWBinOpAdd
AtomicRMWBinOpSub AtomicRMWBinOp = C.LLVMAtomicRMWBinOpSub
AtomicRMWBinOpAnd AtomicRMWBinOp = C.LLVMAtomicRMWBinOpAnd
AtomicRMWBinOpNand AtomicRMWBinOp = C.LLVMAtomicRMWBinOpNand
AtomicRMWBinOpOr AtomicRMWBinOp = C.LLVMAtomicRMWBinOpOr
AtomicRMWBinOpXor AtomicRMWBinOp = C.LLVMAtomicRMWBinOpXor
AtomicRMWBinOpMax AtomicRMWBinOp = C.LLVMAtomicRMWBinOpMax
AtomicRMWBinOpMin AtomicRMWBinOp = C.LLVMAtomicRMWBinOpMin
AtomicRMWBinOpUMax AtomicRMWBinOp = C.LLVMAtomicRMWBinOpUMax
AtomicRMWBinOpUMin AtomicRMWBinOp = C.LLVMAtomicRMWBinOpUMin
)
const (
AtomicOrderingNotAtomic AtomicOrdering = C.LLVMAtomicOrderingNotAtomic
AtomicOrderingUnordered AtomicOrdering = C.LLVMAtomicOrderingUnordered
AtomicOrderingMonotonic AtomicOrdering = C.LLVMAtomicOrderingMonotonic
AtomicOrderingAcquire AtomicOrdering = C.LLVMAtomicOrderingAcquire
AtomicOrderingRelease AtomicOrdering = C.LLVMAtomicOrderingRelease
AtomicOrderingAcquireRelease AtomicOrdering = C.LLVMAtomicOrderingAcquireRelease
AtomicOrderingSequentiallyConsistent AtomicOrdering = C.LLVMAtomicOrderingSequentiallyConsistent
)
//-------------------------------------------------------------------------
// llvm.TypeKind
//-------------------------------------------------------------------------
const (
VoidTypeKind TypeKind = C.LLVMVoidTypeKind
FloatTypeKind TypeKind = C.LLVMFloatTypeKind
DoubleTypeKind TypeKind = C.LLVMDoubleTypeKind
X86_FP80TypeKind TypeKind = C.LLVMX86_FP80TypeKind
FP128TypeKind TypeKind = C.LLVMFP128TypeKind
PPC_FP128TypeKind TypeKind = C.LLVMPPC_FP128TypeKind
LabelTypeKind TypeKind = C.LLVMLabelTypeKind
IntegerTypeKind TypeKind = C.LLVMIntegerTypeKind
FunctionTypeKind TypeKind = C.LLVMFunctionTypeKind
StructTypeKind TypeKind = C.LLVMStructTypeKind
ArrayTypeKind TypeKind = C.LLVMArrayTypeKind
PointerTypeKind TypeKind = C.LLVMPointerTypeKind
VectorTypeKind TypeKind = C.LLVMVectorTypeKind
MetadataTypeKind TypeKind = C.LLVMMetadataTypeKind
TokenTypeKind TypeKind = C.LLVMTokenTypeKind
)
//-------------------------------------------------------------------------
// llvm.Linkage
//-------------------------------------------------------------------------
const (
ExternalLinkage Linkage = C.LLVMExternalLinkage
AvailableExternallyLinkage Linkage = C.LLVMAvailableExternallyLinkage
LinkOnceAnyLinkage Linkage = C.LLVMLinkOnceAnyLinkage
LinkOnceODRLinkage Linkage = C.LLVMLinkOnceODRLinkage
WeakAnyLinkage Linkage = C.LLVMWeakAnyLinkage
WeakODRLinkage Linkage = C.LLVMWeakODRLinkage
AppendingLinkage Linkage = C.LLVMAppendingLinkage
InternalLinkage Linkage = C.LLVMInternalLinkage
PrivateLinkage Linkage = C.LLVMPrivateLinkage
ExternalWeakLinkage Linkage = C.LLVMExternalWeakLinkage
CommonLinkage Linkage = C.LLVMCommonLinkage
)
//-------------------------------------------------------------------------
// llvm.Visibility
//-------------------------------------------------------------------------
const (
DefaultVisibility Visibility = C.LLVMDefaultVisibility
HiddenVisibility Visibility = C.LLVMHiddenVisibility
ProtectedVisibility Visibility = C.LLVMProtectedVisibility
)
//-------------------------------------------------------------------------
// llvm.CallConv
//-------------------------------------------------------------------------
const (
CCallConv CallConv = C.LLVMCCallConv
FastCallConv CallConv = C.LLVMFastCallConv
ColdCallConv CallConv = C.LLVMColdCallConv
X86StdcallCallConv CallConv = C.LLVMX86StdcallCallConv
X86FastcallCallConv CallConv = C.LLVMX86FastcallCallConv
)
//-------------------------------------------------------------------------
// llvm.ComdatSelectionKind
//-------------------------------------------------------------------------
const (
AnyComdatSelectionKind ComdatSelectionKind = C.LLVMAnyComdatSelectionKind
ExactMatchComdatSelectionKind ComdatSelectionKind = C.LLVMExactMatchComdatSelectionKind
LargestComdatSelectionKind ComdatSelectionKind = C.LLVMLargestComdatSelectionKind
NoDuplicatesComdatSelectionKind ComdatSelectionKind = C.LLVMNoDuplicatesComdatSelectionKind
SameSizeComdatSelectionKind ComdatSelectionKind = C.LLVMSameSizeComdatSelectionKind
)
//-------------------------------------------------------------------------
// llvm.IntPredicate
//-------------------------------------------------------------------------
const (
IntEQ IntPredicate = C.LLVMIntEQ
IntNE IntPredicate = C.LLVMIntNE
IntUGT IntPredicate = C.LLVMIntUGT
IntUGE IntPredicate = C.LLVMIntUGE
IntULT IntPredicate = C.LLVMIntULT
IntULE IntPredicate = C.LLVMIntULE
IntSGT IntPredicate = C.LLVMIntSGT
IntSGE IntPredicate = C.LLVMIntSGE
IntSLT IntPredicate = C.LLVMIntSLT
IntSLE IntPredicate = C.LLVMIntSLE
)
//-------------------------------------------------------------------------
// llvm.FloatPredicate
//-------------------------------------------------------------------------
const (
FloatPredicateFalse FloatPredicate = C.LLVMRealPredicateFalse
FloatOEQ FloatPredicate = C.LLVMRealOEQ
FloatOGT FloatPredicate = C.LLVMRealOGT
FloatOGE FloatPredicate = C.LLVMRealOGE
FloatOLT FloatPredicate = C.LLVMRealOLT
FloatOLE FloatPredicate = C.LLVMRealOLE
FloatONE FloatPredicate = C.LLVMRealONE
FloatORD FloatPredicate = C.LLVMRealORD
FloatUNO FloatPredicate = C.LLVMRealUNO
FloatUEQ FloatPredicate = C.LLVMRealUEQ
FloatUGT FloatPredicate = C.LLVMRealUGT
FloatUGE FloatPredicate = C.LLVMRealUGE
FloatULT FloatPredicate = C.LLVMRealULT
FloatULE FloatPredicate = C.LLVMRealULE
FloatUNE FloatPredicate = C.LLVMRealUNE
FloatPredicateTrue FloatPredicate = C.LLVMRealPredicateTrue
)
//-------------------------------------------------------------------------
// llvm.LandingPadClause
//-------------------------------------------------------------------------
const (
LandingPadCatch LandingPadClause = C.LLVMLandingPadCatch
LandingPadFilter LandingPadClause = C.LLVMLandingPadFilter
)
//-------------------------------------------------------------------------
// llvm.InlineAsmDialect
//-------------------------------------------------------------------------
const (
InlineAsmDialectATT InlineAsmDialect = C.LLVMInlineAsmDialectATT
InlineAsmDialectIntel InlineAsmDialect = C.LLVMInlineAsmDialectIntel
)
//-------------------------------------------------------------------------
// llvm.Context
//-------------------------------------------------------------------------
func NewContext() Context { return Context{C.LLVMContextCreate()} }
func GlobalContext() Context { return Context{C.LLVMGetGlobalContext()} }
func (c Context) Dispose() { C.LLVMContextDispose(c.C) }
func (c Context) MDKindID(name string) (id int) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
id = int(C.LLVMGetMDKindIDInContext(c.C, cname, C.unsigned(len(name))))
return
}
func MDKindID(name string) (id int) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
id = int(C.LLVMGetMDKindID(cname, C.unsigned(len(name))))
return
}
//-------------------------------------------------------------------------
// llvm.Attribute
//-------------------------------------------------------------------------
func AttributeKindID(name string) (id uint) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
id = uint(C.LLVMGetEnumAttributeKindForName(cname, C.size_t(len(name))))
return
}
func (c Context) CreateEnumAttribute(kind uint, val uint64) (a Attribute) {
a.C = C.LLVMCreateEnumAttribute(c.C, C.unsigned(kind), C.uint64_t(val))
return
}
func (a Attribute) GetEnumKind() (id int) {
id = int(C.LLVMGetEnumAttributeKind(a.C))
return
}
func (a Attribute) GetEnumValue() (val uint64) {
val = uint64(C.LLVMGetEnumAttributeValue(a.C))
return
}
func (c Context) CreateStringAttribute(kind string, val string) (a Attribute) {
ckind := C.CString(kind)
defer C.free(unsafe.Pointer(ckind))
cval := C.CString(val)
defer C.free(unsafe.Pointer(cval))
a.C = C.LLVMCreateStringAttribute(c.C,
ckind, C.unsigned(len(kind)),
cval, C.unsigned(len(val)))
return
}
func (a Attribute) GetStringKind() string {
length := C.unsigned(0)
ckind := C.LLVMGetStringAttributeKind(a.C, &length)
return C.GoStringN(ckind, C.int(length))
}
func (a Attribute) GetStringValue() string {
length := C.unsigned(0)
ckind := C.LLVMGetStringAttributeValue(a.C, &length)
return C.GoStringN(ckind, C.int(length))
}
func (a Attribute) IsEnum() bool {
return C.LLVMIsEnumAttribute(a.C) != 0
}
func (a Attribute) IsString() bool {
return C.LLVMIsStringAttribute(a.C) != 0
}
//-------------------------------------------------------------------------
// llvm.Module
//-------------------------------------------------------------------------
// Create and destroy modules.
// See llvm::Module::Module.
func NewModule(name string) (m Module) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
m.C = C.LLVMModuleCreateWithName(cname)
return
}
func (c Context) NewModule(name string) (m Module) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
m.C = C.LLVMModuleCreateWithNameInContext(cname, c.C)
return
}
// See llvm::Module::~Module
func (m Module) Dispose() { C.LLVMDisposeModule(m.C) }
// Data layout. See Module::getDataLayout.
func (m Module) DataLayout() string {
clayout := C.LLVMGetDataLayout(m.C)
return C.GoString(clayout)
}
func (m Module) SetDataLayout(layout string) {
clayout := C.CString(layout)
defer C.free(unsafe.Pointer(clayout))
C.LLVMSetDataLayout(m.C, clayout)
}
// Target triple. See Module::getTargetTriple.
func (m Module) Target() string {
ctarget := C.LLVMGetTarget(m.C)
return C.GoString(ctarget)
}
func (m Module) SetTarget(target string) {
ctarget := C.CString(target)
defer C.free(unsafe.Pointer(ctarget))
C.LLVMSetTarget(m.C, ctarget)
}
func (m Module) GetTypeByName(name string) (t Type) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
t.C = C.LLVMGetTypeByName(m.C, cname)
return
}
// See Module::dump.
func (m Module) Dump() {
C.LLVMDumpModule(m.C)
}
func (m Module) String() string {
cir := C.LLVMPrintModuleToString(m.C)
defer C.free(unsafe.Pointer(cir))
ir := C.GoString(cir)
return ir
}
// See Module::setModuleInlineAsm.
func (m Module) SetInlineAsm(asm string) {
casm := C.CString(asm)
defer C.free(unsafe.Pointer(casm))
C.LLVMSetModuleInlineAsm(m.C, casm)
}
func (m Module) AddNamedMetadataOperand(name string, operand Metadata) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
C.LLVMAddNamedMetadataOperand2(m.C, cname, operand.C)
}
func (m Module) Context() (c Context) {
c.C = C.LLVMGetModuleContext(m.C)
return
}
//-------------------------------------------------------------------------
// llvm.Type
//-------------------------------------------------------------------------
// LLVM types conform to the following hierarchy:
//
// types:
// integer type
// real type
// function type
// sequence types:
// array type
// pointer type
// vector type
// void type
// label type
// opaque type
// See llvm::LLVMTypeKind::getTypeID.
func (t Type) TypeKind() TypeKind { return TypeKind(C.LLVMGetTypeKind(t.C)) }
// See llvm::LLVMType::getContext.
func (t Type) Context() (c Context) {
c.C = C.LLVMGetTypeContext(t.C)
return
}
// Operations on integer types
func (c Context) Int1Type() (t Type) { t.C = C.LLVMInt1TypeInContext(c.C); return }
func (c Context) Int8Type() (t Type) { t.C = C.LLVMInt8TypeInContext(c.C); return }
func (c Context) Int16Type() (t Type) { t.C = C.LLVMInt16TypeInContext(c.C); return }
func (c Context) Int32Type() (t Type) { t.C = C.LLVMInt32TypeInContext(c.C); return }
func (c Context) Int64Type() (t Type) { t.C = C.LLVMInt64TypeInContext(c.C); return }
func (c Context) IntType(numbits int) (t Type) {
t.C = C.LLVMIntTypeInContext(c.C, C.unsigned(numbits))
return
}
func Int1Type() (t Type) { t.C = C.LLVMInt1Type(); return }
func Int8Type() (t Type) { t.C = C.LLVMInt8Type(); return }
func Int16Type() (t Type) { t.C = C.LLVMInt16Type(); return }
func Int32Type() (t Type) { t.C = C.LLVMInt32Type(); return }
func Int64Type() (t Type) { t.C = C.LLVMInt64Type(); return }
func IntType(numbits int) (t Type) {
t.C = C.LLVMIntType(C.unsigned(numbits))
return
}
func (t Type) IntTypeWidth() int {
return int(C.LLVMGetIntTypeWidth(t.C))
}
// Operations on real types
func (c Context) FloatType() (t Type) { t.C = C.LLVMFloatTypeInContext(c.C); return }
func (c Context) DoubleType() (t Type) { t.C = C.LLVMDoubleTypeInContext(c.C); return }
func (c Context) X86FP80Type() (t Type) { t.C = C.LLVMX86FP80TypeInContext(c.C); return }
func (c Context) FP128Type() (t Type) { t.C = C.LLVMFP128TypeInContext(c.C); return }
func (c Context) PPCFP128Type() (t Type) { t.C = C.LLVMPPCFP128TypeInContext(c.C); return }
func FloatType() (t Type) { t.C = C.LLVMFloatType(); return }
func DoubleType() (t Type) { t.C = C.LLVMDoubleType(); return }
func X86FP80Type() (t Type) { t.C = C.LLVMX86FP80Type(); return }
func FP128Type() (t Type) { t.C = C.LLVMFP128Type(); return }
func PPCFP128Type() (t Type) { t.C = C.LLVMPPCFP128Type(); return }
// Operations on function types
func FunctionType(returnType Type, paramTypes []Type, isVarArg bool) (t Type) {
var pt *C.LLVMTypeRef
var ptlen C.unsigned
if len(paramTypes) > 0 {
pt = llvmTypeRefPtr(¶mTypes[0])
ptlen = C.unsigned(len(paramTypes))
}
t.C = C.LLVMFunctionType(returnType.C,
pt,
ptlen,
boolToLLVMBool(isVarArg))
return
}
func (t Type) IsFunctionVarArg() bool { return C.LLVMIsFunctionVarArg(t.C) != 0 }
func (t Type) ReturnType() (rt Type) { rt.C = C.LLVMGetReturnType(t.C); return }
func (t Type) ParamTypesCount() int { return int(C.LLVMCountParamTypes(t.C)) }
func (t Type) ParamTypes() []Type {
count := t.ParamTypesCount()
if count > 0 {
out := make([]Type, count)
C.LLVMGetParamTypes(t.C, llvmTypeRefPtr(&out[0]))
return out
}
return nil
}
// Operations on struct types
func (c Context) StructType(elementTypes []Type, packed bool) (t Type) {
var pt *C.LLVMTypeRef
var ptlen C.unsigned
if len(elementTypes) > 0 {
pt = llvmTypeRefPtr(&elementTypes[0])
ptlen = C.unsigned(len(elementTypes))
}
t.C = C.LLVMStructTypeInContext(c.C,
pt,
ptlen,
boolToLLVMBool(packed))
return
}
func StructType(elementTypes []Type, packed bool) (t Type) {
var pt *C.LLVMTypeRef
var ptlen C.unsigned
if len(elementTypes) > 0 {
pt = llvmTypeRefPtr(&elementTypes[0])
ptlen = C.unsigned(len(elementTypes))
}
t.C = C.LLVMStructType(pt, ptlen, boolToLLVMBool(packed))
return
}
func (c Context) StructCreateNamed(name string) (t Type) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
t.C = C.LLVMStructCreateNamed(c.C, cname)
return
}
func (t Type) StructName() string {
return C.GoString(C.LLVMGetStructName(t.C))
}
func (t Type) StructSetBody(elementTypes []Type, packed bool) {
var pt *C.LLVMTypeRef
var ptlen C.unsigned
if len(elementTypes) > 0 {
pt = llvmTypeRefPtr(&elementTypes[0])
ptlen = C.unsigned(len(elementTypes))
}
C.LLVMStructSetBody(t.C, pt, ptlen, boolToLLVMBool(packed))
}
func (t Type) IsStructPacked() bool { return C.LLVMIsPackedStruct(t.C) != 0 }
func (t Type) StructElementTypesCount() int { return int(C.LLVMCountStructElementTypes(t.C)) }
func (t Type) StructElementTypes() []Type {
out := make([]Type, t.StructElementTypesCount())
if len(out) > 0 {
C.LLVMGetStructElementTypes(t.C, llvmTypeRefPtr(&out[0]))
}
return out
}
// Operations on array, pointer, and vector types (sequence types)
func (t Type) Subtypes() (ret []Type) {
ret = make([]Type, C.LLVMGetNumContainedTypes(t.C))
C.LLVMGetSubtypes(t.C, llvmTypeRefPtr(&ret[0]))
return
}
func ArrayType(elementType Type, elementCount int) (t Type) {
t.C = C.LLVMArrayType(elementType.C, C.unsigned(elementCount))
return
}
func PointerType(elementType Type, addressSpace int) (t Type) {
t.C = C.LLVMPointerType(elementType.C, C.unsigned(addressSpace))
return
}
func VectorType(elementType Type, elementCount int) (t Type) {
t.C = C.LLVMVectorType(elementType.C, C.unsigned(elementCount))
return
}
func (t Type) ElementType() (rt Type) { rt.C = C.LLVMGetElementType(t.C); return }
func (t Type) ArrayLength() int { return int(C.LLVMGetArrayLength(t.C)) }
func (t Type) PointerAddressSpace() int { return int(C.LLVMGetPointerAddressSpace(t.C)) }
func (t Type) VectorSize() int { return int(C.LLVMGetVectorSize(t.C)) }
// Operations on other types
func (c Context) VoidType() (t Type) { t.C = C.LLVMVoidTypeInContext(c.C); return }
func (c Context) LabelType() (t Type) { t.C = C.LLVMLabelTypeInContext(c.C); return }
func (c Context) TokenType() (t Type) { t.C = C.LLVMTokenTypeInContext(c.C); return }
func VoidType() (t Type) { t.C = C.LLVMVoidType(); return }
func LabelType() (t Type) { t.C = C.LLVMLabelType(); return }
//-------------------------------------------------------------------------
// llvm.Value
//-------------------------------------------------------------------------
// Operations on all values
func (v Value) Type() (t Type) { t.C = C.LLVMTypeOf(v.C); return }
func (v Value) Name() string { return C.GoString(C.LLVMGetValueName(v.C)) }
func (v Value) SetName(name string) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
C.LLVMSetValueName(v.C, cname)
}
func (v Value) Dump() { C.LLVMDumpValue(v.C) }
func (v Value) ReplaceAllUsesWith(nv Value) { C.LLVMReplaceAllUsesWith(v.C, nv.C) }
func (v Value) HasMetadata() bool { return C.LLVMHasMetadata(v.C) != 0 }
func (v Value) Metadata(kind int) (rv Value) {
rv.C = C.LLVMGetMetadata(v.C, C.unsigned(kind))
return
}
func (v Value) SetMetadata(kind int, node Metadata) {
C.LLVMSetMetadata2(v.C, C.unsigned(kind), node.C)
}
// Conversion functions.
// Return the input value if it is an instance of the specified class, otherwise NULL.
// See llvm::dyn_cast_or_null<>.
func (v Value) IsAArgument() (rv Value) { rv.C = C.LLVMIsAArgument(v.C); return }
func (v Value) IsABasicBlock() (rv Value) { rv.C = C.LLVMIsABasicBlock(v.C); return }
func (v Value) IsAInlineAsm() (rv Value) { rv.C = C.LLVMIsAInlineAsm(v.C); return }
func (v Value) IsAUser() (rv Value) { rv.C = C.LLVMIsAUser(v.C); return }
func (v Value) IsAConstant() (rv Value) { rv.C = C.LLVMIsAConstant(v.C); return }
func (v Value) IsAConstantAggregateZero() (rv Value) {
rv.C = C.LLVMIsAConstantAggregateZero(v.C)
return
}
func (v Value) IsAConstantArray() (rv Value) { rv.C = C.LLVMIsAConstantArray(v.C); return }
func (v Value) IsAConstantExpr() (rv Value) { rv.C = C.LLVMIsAConstantExpr(v.C); return }
func (v Value) IsAConstantFP() (rv Value) { rv.C = C.LLVMIsAConstantFP(v.C); return }
func (v Value) IsAConstantInt() (rv Value) { rv.C = C.LLVMIsAConstantInt(v.C); return }
func (v Value) IsAConstantPointerNull() (rv Value) { rv.C = C.LLVMIsAConstantPointerNull(v.C); return }
func (v Value) IsAConstantStruct() (rv Value) { rv.C = C.LLVMIsAConstantStruct(v.C); return }
func (v Value) IsAConstantVector() (rv Value) { rv.C = C.LLVMIsAConstantVector(v.C); return }
func (v Value) IsAGlobalValue() (rv Value) { rv.C = C.LLVMIsAGlobalValue(v.C); return }
func (v Value) IsAFunction() (rv Value) { rv.C = C.LLVMIsAFunction(v.C); return }
func (v Value) IsAGlobalAlias() (rv Value) { rv.C = C.LLVMIsAGlobalAlias(v.C); return }
func (v Value) IsAGlobalVariable() (rv Value) { rv.C = C.LLVMIsAGlobalVariable(v.C); return }
func (v Value) IsAUndefValue() (rv Value) { rv.C = C.LLVMIsAUndefValue(v.C); return }
func (v Value) IsAInstruction() (rv Value) { rv.C = C.LLVMIsAInstruction(v.C); return }
func (v Value) IsABinaryOperator() (rv Value) { rv.C = C.LLVMIsABinaryOperator(v.C); return }
func (v Value) IsACallInst() (rv Value) { rv.C = C.LLVMIsACallInst(v.C); return }
func (v Value) IsAIntrinsicInst() (rv Value) { rv.C = C.LLVMIsAIntrinsicInst(v.C); return }
func (v Value) IsADbgInfoIntrinsic() (rv Value) { rv.C = C.LLVMIsADbgInfoIntrinsic(v.C); return }
func (v Value) IsADbgDeclareInst() (rv Value) { rv.C = C.LLVMIsADbgDeclareInst(v.C); return }
func (v Value) IsAMemIntrinsic() (rv Value) { rv.C = C.LLVMIsAMemIntrinsic(v.C); return }
func (v Value) IsAMemCpyInst() (rv Value) { rv.C = C.LLVMIsAMemCpyInst(v.C); return }
func (v Value) IsAMemMoveInst() (rv Value) { rv.C = C.LLVMIsAMemMoveInst(v.C); return }
func (v Value) IsAMemSetInst() (rv Value) { rv.C = C.LLVMIsAMemSetInst(v.C); return }
func (v Value) IsACmpInst() (rv Value) { rv.C = C.LLVMIsACmpInst(v.C); return }
func (v Value) IsAFCmpInst() (rv Value) { rv.C = C.LLVMIsAFCmpInst(v.C); return }
func (v Value) IsAICmpInst() (rv Value) { rv.C = C.LLVMIsAICmpInst(v.C); return }
func (v Value) IsAExtractElementInst() (rv Value) { rv.C = C.LLVMIsAExtractElementInst(v.C); return }
func (v Value) IsAGetElementPtrInst() (rv Value) { rv.C = C.LLVMIsAGetElementPtrInst(v.C); return }
func (v Value) IsAInsertElementInst() (rv Value) { rv.C = C.LLVMIsAInsertElementInst(v.C); return }
func (v Value) IsAInsertValueInst() (rv Value) { rv.C = C.LLVMIsAInsertValueInst(v.C); return }
func (v Value) IsAPHINode() (rv Value) { rv.C = C.LLVMIsAPHINode(v.C); return }
func (v Value) IsASelectInst() (rv Value) { rv.C = C.LLVMIsASelectInst(v.C); return }
func (v Value) IsAShuffleVectorInst() (rv Value) { rv.C = C.LLVMIsAShuffleVectorInst(v.C); return }
func (v Value) IsAStoreInst() (rv Value) { rv.C = C.LLVMIsAStoreInst(v.C); return }
func (v Value) IsABranchInst() (rv Value) { rv.C = C.LLVMIsABranchInst(v.C); return }
func (v Value) IsAInvokeInst() (rv Value) { rv.C = C.LLVMIsAInvokeInst(v.C); return }
func (v Value) IsAReturnInst() (rv Value) { rv.C = C.LLVMIsAReturnInst(v.C); return }
func (v Value) IsASwitchInst() (rv Value) { rv.C = C.LLVMIsASwitchInst(v.C); return }
func (v Value) IsAUnreachableInst() (rv Value) { rv.C = C.LLVMIsAUnreachableInst(v.C); return }
func (v Value) IsAUnaryInstruction() (rv Value) { rv.C = C.LLVMIsAUnaryInstruction(v.C); return }
func (v Value) IsAAllocaInst() (rv Value) { rv.C = C.LLVMIsAAllocaInst(v.C); return }
func (v Value) IsACastInst() (rv Value) { rv.C = C.LLVMIsACastInst(v.C); return }
func (v Value) IsABitCastInst() (rv Value) { rv.C = C.LLVMIsABitCastInst(v.C); return }
func (v Value) IsAFPExtInst() (rv Value) { rv.C = C.LLVMIsAFPExtInst(v.C); return }
func (v Value) IsAFPToSIInst() (rv Value) { rv.C = C.LLVMIsAFPToSIInst(v.C); return }
func (v Value) IsAFPToUIInst() (rv Value) { rv.C = C.LLVMIsAFPToUIInst(v.C); return }
func (v Value) IsAFPTruncInst() (rv Value) { rv.C = C.LLVMIsAFPTruncInst(v.C); return }
func (v Value) IsAIntToPtrInst() (rv Value) { rv.C = C.LLVMIsAIntToPtrInst(v.C); return }
func (v Value) IsAPtrToIntInst() (rv Value) { rv.C = C.LLVMIsAPtrToIntInst(v.C); return }
func (v Value) IsASExtInst() (rv Value) { rv.C = C.LLVMIsASExtInst(v.C); return }
func (v Value) IsASIToFPInst() (rv Value) { rv.C = C.LLVMIsASIToFPInst(v.C); return }
func (v Value) IsATruncInst() (rv Value) { rv.C = C.LLVMIsATruncInst(v.C); return }
func (v Value) IsAUIToFPInst() (rv Value) { rv.C = C.LLVMIsAUIToFPInst(v.C); return }
func (v Value) IsAZExtInst() (rv Value) { rv.C = C.LLVMIsAZExtInst(v.C); return }
func (v Value) IsAExtractValueInst() (rv Value) { rv.C = C.LLVMIsAExtractValueInst(v.C); return }
func (v Value) IsALoadInst() (rv Value) { rv.C = C.LLVMIsALoadInst(v.C); return }
func (v Value) IsAVAArgInst() (rv Value) { rv.C = C.LLVMIsAVAArgInst(v.C); return }
// Operations on Uses
func (v Value) FirstUse() (u Use) { u.C = C.LLVMGetFirstUse(v.C); return }
func (u Use) NextUse() (ru Use) { ru.C = C.LLVMGetNextUse(u.C); return }
func (u Use) User() (v Value) { v.C = C.LLVMGetUser(u.C); return }
func (u Use) UsedValue() (v Value) { v.C = C.LLVMGetUsedValue(u.C); return }
// Operations on Users
func (v Value) Operand(i int) (rv Value) { rv.C = C.LLVMGetOperand(v.C, C.unsigned(i)); return }
func (v Value) SetOperand(i int, op Value) { C.LLVMSetOperand(v.C, C.unsigned(i), op.C) }
func (v Value) OperandsCount() int { return int(C.LLVMGetNumOperands(v.C)) }
// Operations on constants of any type
func ConstNull(t Type) (v Value) { v.C = C.LLVMConstNull(t.C); return }
func ConstAllOnes(t Type) (v Value) { v.C = C.LLVMConstAllOnes(t.C); return }
func Undef(t Type) (v Value) { v.C = C.LLVMGetUndef(t.C); return }
func (v Value) IsConstant() bool { return C.LLVMIsConstant(v.C) != 0 }
func (v Value) IsNull() bool { return C.LLVMIsNull(v.C) != 0 }
func (v Value) IsUndef() bool { return C.LLVMIsUndef(v.C) != 0 }
func ConstPointerNull(t Type) (v Value) { v.C = C.LLVMConstPointerNull(t.C); return }
// Operations on metadata
func (c Context) MDString(str string) (md Metadata) {
cstr := C.CString(str)
defer C.free(unsafe.Pointer(cstr))
md.C = C.LLVMMDString2(c.C, cstr, C.unsigned(len(str)))
return
}
func (c Context) MDNode(mds []Metadata) (md Metadata) {
ptr, nvals := llvmMetadataRefs(mds)
md.C = C.LLVMMDNode2(c.C, ptr, nvals)
return
}
func (v Value) ConstantAsMetadata() (md Metadata) {
md.C = C.LLVMConstantAsMetadata(v.C)
return
}
// Operations on scalar constants
func ConstInt(t Type, n uint64, signExtend bool) (v Value) {
v.C = C.LLVMConstInt(t.C,
C.ulonglong(n),
boolToLLVMBool(signExtend))
return
}
func ConstIntFromString(t Type, str string, radix int) (v Value) {
cstr := C.CString(str)
defer C.free(unsafe.Pointer(cstr))
v.C = C.LLVMConstIntOfString(t.C, cstr, C.uint8_t(radix))
return
}
func ConstFloat(t Type, n float64) (v Value) {
v.C = C.LLVMConstReal(t.C, C.double(n))
return
}
func ConstFloatFromString(t Type, str string) (v Value) {
cstr := C.CString(str)
defer C.free(unsafe.Pointer(cstr))
v.C = C.LLVMConstRealOfString(t.C, cstr)
return
}
func (v Value) ZExtValue() uint64 { return uint64(C.LLVMConstIntGetZExtValue(v.C)) }
func (v Value) SExtValue() int64 { return int64(C.LLVMConstIntGetSExtValue(v.C)) }
// Operations on composite constants
func (c Context) ConstString(str string, addnull bool) (v Value) {
cstr := C.CString(str)
defer C.free(unsafe.Pointer(cstr))
v.C = C.LLVMConstStringInContext(c.C, cstr,
C.unsigned(len(str)), boolToLLVMBool(!addnull))
return
}
func (c Context) ConstStruct(constVals []Value, packed bool) (v Value) {
ptr, nvals := llvmValueRefs(constVals)
v.C = C.LLVMConstStructInContext(c.C, ptr, nvals,
boolToLLVMBool(packed))
return
}
func ConstNamedStruct(t Type, constVals []Value) (v Value) {
ptr, nvals := llvmValueRefs(constVals)
v.C = C.LLVMConstNamedStruct(t.C, ptr, nvals)
return
}
func ConstString(str string, addnull bool) (v Value) {
cstr := C.CString(str)
defer C.free(unsafe.Pointer(cstr))
v.C = C.LLVMConstString(cstr,
C.unsigned(len(str)), boolToLLVMBool(!addnull))
return
}
func ConstArray(t Type, constVals []Value) (v Value) {
ptr, nvals := llvmValueRefs(constVals)
v.C = C.LLVMConstArray(t.C, ptr, nvals)
return
}
func ConstStruct(constVals []Value, packed bool) (v Value) {
ptr, nvals := llvmValueRefs(constVals)
v.C = C.LLVMConstStruct(ptr, nvals, boolToLLVMBool(packed))
return
}
func ConstVector(scalarConstVals []Value, packed bool) (v Value) {
ptr, nvals := llvmValueRefs(scalarConstVals)
v.C = C.LLVMConstVector(ptr, nvals)
return
}
// Constant expressions
func (v Value) Opcode() Opcode { return Opcode(C.LLVMGetConstOpcode(v.C)) }
func (v Value) InstructionOpcode() Opcode { return Opcode(C.LLVMGetInstructionOpcode(v.C)) }
func AlignOf(t Type) (v Value) { v.C = C.LLVMAlignOf(t.C); return }
func SizeOf(t Type) (v Value) { v.C = C.LLVMSizeOf(t.C); return }
func ConstNeg(v Value) (rv Value) { rv.C = C.LLVMConstNeg(v.C); return }
func ConstNSWNeg(v Value) (rv Value) { rv.C = C.LLVMConstNSWNeg(v.C); return }
func ConstNUWNeg(v Value) (rv Value) { rv.C = C.LLVMConstNUWNeg(v.C); return }
func ConstFNeg(v Value) (rv Value) { rv.C = C.LLVMConstFNeg(v.C); return }
func ConstNot(v Value) (rv Value) { rv.C = C.LLVMConstNot(v.C); return }
func ConstAdd(lhs, rhs Value) (v Value) { v.C = C.LLVMConstAdd(lhs.C, rhs.C); return }
func ConstNSWAdd(lhs, rhs Value) (v Value) { v.C = C.LLVMConstNSWAdd(lhs.C, rhs.C); return }
func ConstNUWAdd(lhs, rhs Value) (v Value) { v.C = C.LLVMConstNUWAdd(lhs.C, rhs.C); return }
func ConstFAdd(lhs, rhs Value) (v Value) { v.C = C.LLVMConstFAdd(lhs.C, rhs.C); return }
func ConstSub(lhs, rhs Value) (v Value) { v.C = C.LLVMConstSub(lhs.C, rhs.C); return }
func ConstNSWSub(lhs, rhs Value) (v Value) { v.C = C.LLVMConstNSWSub(lhs.C, rhs.C); return }
func ConstNUWSub(lhs, rhs Value) (v Value) { v.C = C.LLVMConstNUWSub(lhs.C, rhs.C); return }
func ConstFSub(lhs, rhs Value) (v Value) { v.C = C.LLVMConstFSub(lhs.C, rhs.C); return }
func ConstMul(lhs, rhs Value) (v Value) { v.C = C.LLVMConstMul(lhs.C, rhs.C); return }
func ConstNSWMul(lhs, rhs Value) (v Value) { v.C = C.LLVMConstNSWMul(lhs.C, rhs.C); return }
func ConstNUWMul(lhs, rhs Value) (v Value) { v.C = C.LLVMConstNUWMul(lhs.C, rhs.C); return }
func ConstFMul(lhs, rhs Value) (v Value) { v.C = C.LLVMConstFMul(lhs.C, rhs.C); return }
func ConstUDiv(lhs, rhs Value) (v Value) { v.C = C.LLVMConstUDiv(lhs.C, rhs.C); return }
func ConstSDiv(lhs, rhs Value) (v Value) { v.C = C.LLVMConstSDiv(lhs.C, rhs.C); return }
func ConstExactSDiv(lhs, rhs Value) (v Value) { v.C = C.LLVMConstExactSDiv(lhs.C, rhs.C); return }
func ConstFDiv(lhs, rhs Value) (v Value) { v.C = C.LLVMConstFDiv(lhs.C, rhs.C); return }
func ConstURem(lhs, rhs Value) (v Value) { v.C = C.LLVMConstURem(lhs.C, rhs.C); return }
func ConstSRem(lhs, rhs Value) (v Value) { v.C = C.LLVMConstSRem(lhs.C, rhs.C); return }
func ConstFRem(lhs, rhs Value) (v Value) { v.C = C.LLVMConstFRem(lhs.C, rhs.C); return }
func ConstAnd(lhs, rhs Value) (v Value) { v.C = C.LLVMConstAnd(lhs.C, rhs.C); return }
func ConstOr(lhs, rhs Value) (v Value) { v.C = C.LLVMConstOr(lhs.C, rhs.C); return }
func ConstXor(lhs, rhs Value) (v Value) { v.C = C.LLVMConstXor(lhs.C, rhs.C); return }
func ConstICmp(pred IntPredicate, lhs, rhs Value) (v Value) {
v.C = C.LLVMConstICmp(C.LLVMIntPredicate(pred), lhs.C, rhs.C)
return
}
func ConstFCmp(pred FloatPredicate, lhs, rhs Value) (v Value) {
v.C = C.LLVMConstFCmp(C.LLVMRealPredicate(pred), lhs.C, rhs.C)
return
}
func ConstShl(lhs, rhs Value) (v Value) { v.C = C.LLVMConstShl(lhs.C, rhs.C); return }
func ConstLShr(lhs, rhs Value) (v Value) { v.C = C.LLVMConstLShr(lhs.C, rhs.C); return }
func ConstAShr(lhs, rhs Value) (v Value) { v.C = C.LLVMConstAShr(lhs.C, rhs.C); return }
func ConstGEP(v Value, indices []Value) (rv Value) {
ptr, nvals := llvmValueRefs(indices)
rv.C = C.LLVMConstGEP(v.C, ptr, nvals)
return
}
func ConstInBoundsGEP(v Value, indices []Value) (rv Value) {
ptr, nvals := llvmValueRefs(indices)
rv.C = C.LLVMConstInBoundsGEP(v.C, ptr, nvals)
return
}
func ConstTrunc(v Value, t Type) (rv Value) { rv.C = C.LLVMConstTrunc(v.C, t.C); return }
func ConstSExt(v Value, t Type) (rv Value) { rv.C = C.LLVMConstSExt(v.C, t.C); return }
func ConstZExt(v Value, t Type) (rv Value) { rv.C = C.LLVMConstZExt(v.C, t.C); return }
func ConstFPTrunc(v Value, t Type) (rv Value) { rv.C = C.LLVMConstFPTrunc(v.C, t.C); return }
func ConstFPExt(v Value, t Type) (rv Value) { rv.C = C.LLVMConstFPExt(v.C, t.C); return }
func ConstUIToFP(v Value, t Type) (rv Value) { rv.C = C.LLVMConstUIToFP(v.C, t.C); return }
func ConstSIToFP(v Value, t Type) (rv Value) { rv.C = C.LLVMConstSIToFP(v.C, t.C); return }
func ConstFPToUI(v Value, t Type) (rv Value) { rv.C = C.LLVMConstFPToUI(v.C, t.C); return }
func ConstFPToSI(v Value, t Type) (rv Value) { rv.C = C.LLVMConstFPToSI(v.C, t.C); return }
func ConstPtrToInt(v Value, t Type) (rv Value) { rv.C = C.LLVMConstPtrToInt(v.C, t.C); return }
func ConstIntToPtr(v Value, t Type) (rv Value) { rv.C = C.LLVMConstIntToPtr(v.C, t.C); return }
func ConstBitCast(v Value, t Type) (rv Value) { rv.C = C.LLVMConstBitCast(v.C, t.C); return }
func ConstZExtOrBitCast(v Value, t Type) (rv Value) { rv.C = C.LLVMConstZExtOrBitCast(v.C, t.C); return }
func ConstSExtOrBitCast(v Value, t Type) (rv Value) { rv.C = C.LLVMConstSExtOrBitCast(v.C, t.C); return }
func ConstTruncOrBitCast(v Value, t Type) (rv Value) {
rv.C = C.LLVMConstTruncOrBitCast(v.C, t.C)
return
}
func ConstPointerCast(v Value, t Type) (rv Value) { rv.C = C.LLVMConstPointerCast(v.C, t.C); return }
func ConstIntCast(v Value, t Type, signed bool) (rv Value) {
rv.C = C.LLVMConstIntCast(v.C, t.C, boolToLLVMBool(signed))
return
}
func ConstFPCast(v Value, t Type) (rv Value) { rv.C = C.LLVMConstFPCast(v.C, t.C); return }
func ConstSelect(cond, iftrue, iffalse Value) (rv Value) {
rv.C = C.LLVMConstSelect(cond.C, iftrue.C, iffalse.C)
return
}
func ConstExtractElement(vec, i Value) (rv Value) {
rv.C = C.LLVMConstExtractElement(vec.C, i.C)
return
}
func ConstInsertElement(vec, elem, i Value) (rv Value) {
rv.C = C.LLVMConstInsertElement(vec.C, elem.C, i.C)
return
}
func ConstShuffleVector(veca, vecb, mask Value) (rv Value) {
rv.C = C.LLVMConstShuffleVector(veca.C, vecb.C, mask.C)
return
}
//TODO
//LLVMValueRef LLVMConstExtractValue(LLVMValueRef AggConstant, unsigned *IdxList,
// unsigned NumIdx);
func ConstExtractValue(agg Value, indices []uint32) (rv Value) {
n := len(indices)
if n == 0 {
panic("one or more indices are required")
}
ptr := (*C.unsigned)(&indices[0])
rv.C = C.LLVMConstExtractValue(agg.C, ptr, C.unsigned(n))
return
}
func ConstInsertValue(agg, val Value, indices []uint32) (rv Value) {
n := len(indices)
if n == 0 {
panic("one or more indices are required")
}
ptr := (*C.unsigned)(&indices[0])
rv.C = C.LLVMConstInsertValue(agg.C, val.C, ptr, C.unsigned(n))
return
}
func BlockAddress(f Value, bb BasicBlock) (v Value) {
v.C = C.LLVMBlockAddress(f.C, bb.C)
return
}
// Operations on global variables, functions, and aliases (globals)
func (v Value) GlobalParent() (m Module) { m.C = C.LLVMGetGlobalParent(v.C); return }
func (v Value) IsDeclaration() bool { return C.LLVMIsDeclaration(v.C) != 0 }
func (v Value) Linkage() Linkage { return Linkage(C.LLVMGetLinkage(v.C)) }
func (v Value) SetLinkage(l Linkage) { C.LLVMSetLinkage(v.C, C.LLVMLinkage(l)) }
func (v Value) Section() string { return C.GoString(C.LLVMGetSection(v.C)) }
func (v Value) SetSection(str string) {
cstr := C.CString(str)
defer C.free(unsafe.Pointer(cstr))
C.LLVMSetSection(v.C, cstr)
}
func (v Value) Visibility() Visibility { return Visibility(C.LLVMGetVisibility(v.C)) }
func (v Value) SetVisibility(vi Visibility) { C.LLVMSetVisibility(v.C, C.LLVMVisibility(vi)) }
func (v Value) Alignment() int { return int(C.LLVMGetAlignment(v.C)) }
func (v Value) SetAlignment(a int) { C.LLVMSetAlignment(v.C, C.unsigned(a)) }
func (v Value) SetUnnamedAddr(ua bool) { C.LLVMSetUnnamedAddr(v.C, boolToLLVMBool(ua)) }
// Operations on global variables
func AddGlobal(m Module, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMAddGlobal(m.C, t.C, cname)
return
}
func AddGlobalInAddressSpace(m Module, t Type, name string, addressSpace int) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMAddGlobalInAddressSpace(m.C, t.C, cname, C.unsigned(addressSpace))
return
}
func (m Module) NamedGlobal(name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMGetNamedGlobal(m.C, cname)
return
}
func (m Module) FirstGlobal() (v Value) { v.C = C.LLVMGetFirstGlobal(m.C); return }
func (m Module) LastGlobal() (v Value) { v.C = C.LLVMGetLastGlobal(m.C); return }
func NextGlobal(v Value) (rv Value) { rv.C = C.LLVMGetNextGlobal(v.C); return }
func PrevGlobal(v Value) (rv Value) { rv.C = C.LLVMGetPreviousGlobal(v.C); return }
func (v Value) EraseFromParentAsGlobal() { C.LLVMDeleteGlobal(v.C) }
func (v Value) Initializer() (rv Value) { rv.C = C.LLVMGetInitializer(v.C); return }
func (v Value) SetInitializer(cv Value) { C.LLVMSetInitializer(v.C, cv.C) }
func (v Value) IsThreadLocal() bool { return C.LLVMIsThreadLocal(v.C) != 0 }
func (v Value) SetThreadLocal(tl bool) { C.LLVMSetThreadLocal(v.C, boolToLLVMBool(tl)) }
func (v Value) IsGlobalConstant() bool { return C.LLVMIsGlobalConstant(v.C) != 0 }
func (v Value) SetGlobalConstant(gc bool) { C.LLVMSetGlobalConstant(v.C, boolToLLVMBool(gc)) }
func (v Value) IsVolatile() bool { return C.LLVMGetVolatile(v.C) != 0 }
func (v Value) SetVolatile(volatile bool) { C.LLVMSetVolatile(v.C, boolToLLVMBool(volatile)) }
func (v Value) Ordering() AtomicOrdering { return AtomicOrdering(C.LLVMGetOrdering(v.C)) }
func (v Value) SetOrdering(ordering AtomicOrdering) {
C.LLVMSetOrdering(v.C, C.LLVMAtomicOrdering(ordering))
}
func (v Value) IsAtomicSingleThread() bool { return C.LLVMIsAtomicSingleThread(v.C) != 0 }
func (v Value) SetAtomicSingleThread(singleThread bool) {
C.LLVMSetAtomicSingleThread(v.C, boolToLLVMBool(singleThread))
}
func (v Value) CmpXchgSuccessOrdering() AtomicOrdering {
return AtomicOrdering(C.LLVMGetCmpXchgSuccessOrdering(v.C))
}
func (v Value) SetCmpXchgSuccessOrdering(ordering AtomicOrdering) {
C.LLVMSetCmpXchgSuccessOrdering(v.C, C.LLVMAtomicOrdering(ordering))
}
func (v Value) CmpXchgFailureOrdering() AtomicOrdering {
return AtomicOrdering(C.LLVMGetCmpXchgFailureOrdering(v.C))
}
func (v Value) SetCmpXchgFailureOrdering(ordering AtomicOrdering) {
C.LLVMSetCmpXchgFailureOrdering(v.C, C.LLVMAtomicOrdering(ordering))
}
// Operations on aliases
func AddAlias(m Module, t Type, aliasee Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMAddAlias(m.C, t.C, aliasee.C, cname)
return
}
// Operations on comdat
func (m Module) Comdat(name string) (c Comdat) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
c.C = C.LLVMGetOrInsertComdat(m.C, cname)
return
}
func (v Value) Comdat() (c Comdat) { c.C = C.LLVMGetComdat(v.C); return }
func (v Value) SetComdat(c Comdat) { C.LLVMSetComdat(v.C, c.C) }
func (c Comdat) SelectionKind() ComdatSelectionKind {
return ComdatSelectionKind(C.LLVMGetComdatSelectionKind(c.C))
}
func (c Comdat) SetSelectionKind(k ComdatSelectionKind) {
C.LLVMSetComdatSelectionKind(c.C, (C.LLVMComdatSelectionKind)(k))
}
// Operations on functions
func AddFunction(m Module, name string, ft Type) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMAddFunction(m.C, cname, ft.C)
return
}
func (m Module) NamedFunction(name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMGetNamedFunction(m.C, cname)
return
}
func (m Module) FirstFunction() (v Value) { v.C = C.LLVMGetFirstFunction(m.C); return }
func (m Module) LastFunction() (v Value) { v.C = C.LLVMGetLastFunction(m.C); return }
func NextFunction(v Value) (rv Value) { rv.C = C.LLVMGetNextFunction(v.C); return }
func PrevFunction(v Value) (rv Value) { rv.C = C.LLVMGetPreviousFunction(v.C); return }
func (v Value) EraseFromParentAsFunction() { C.LLVMDeleteFunction(v.C) }
func (v Value) IntrinsicID() int { return int(C.LLVMGetIntrinsicID(v.C)) }
func (v Value) FunctionCallConv() CallConv {
return CallConv(C.LLVMCallConv(C.LLVMGetFunctionCallConv(v.C)))
}
func (v Value) SetFunctionCallConv(cc CallConv) { C.LLVMSetFunctionCallConv(v.C, C.unsigned(cc)) }
func (v Value) GC() string { return C.GoString(C.LLVMGetGC(v.C)) }
func (v Value) SetGC(name string) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
C.LLVMSetGC(v.C, cname)
}
func (v Value) AddAttributeAtIndex(i int, a Attribute) {
C.LLVMAddAttributeAtIndex(v.C, C.LLVMAttributeIndex(i), a.C)
}
func (v Value) AddFunctionAttr(a Attribute) {
v.AddAttributeAtIndex(C.LLVMAttributeFunctionIndex, a)
}
func (v Value) GetEnumAttributeAtIndex(i int, kind uint) (a Attribute) {
a.C = C.LLVMGetEnumAttributeAtIndex(v.C, C.LLVMAttributeIndex(i), C.unsigned(kind))
return
}
func (v Value) GetEnumFunctionAttribute(kind uint) Attribute {
return v.GetEnumAttributeAtIndex(C.LLVMAttributeFunctionIndex, kind)
}
func (v Value) GetStringAttributeAtIndex(i int, kind string) (a Attribute) {
ckind := C.CString(kind)
defer C.free(unsafe.Pointer(ckind))
a.C = C.LLVMGetStringAttributeAtIndex(v.C, C.LLVMAttributeIndex(i),
ckind, C.unsigned(len(kind)))
return
}
func (v Value) RemoveEnumAttributeAtIndex(i int, kind uint) {
C.LLVMRemoveEnumAttributeAtIndex(v.C, C.LLVMAttributeIndex(i), C.unsigned(kind))
}
func (v Value) RemoveEnumFunctionAttribute(kind uint) {
v.RemoveEnumAttributeAtIndex(C.LLVMAttributeFunctionIndex, kind)
}
func (v Value) RemoveStringAttributeAtIndex(i int, kind string) {
ckind := C.CString(kind)
defer C.free(unsafe.Pointer(ckind))
C.LLVMRemoveStringAttributeAtIndex(v.C, C.LLVMAttributeIndex(i),
ckind, C.unsigned(len(kind)))
}
func (v Value) AddTargetDependentFunctionAttr(attr, value string) {
cattr := C.CString(attr)
defer C.free(unsafe.Pointer(cattr))
cvalue := C.CString(value)
defer C.free(unsafe.Pointer(cvalue))
C.LLVMAddTargetDependentFunctionAttr(v.C, cattr, cvalue)
}
func (v Value) SetPersonality(p Value) {
C.LLVMSetPersonalityFn(v.C, p.C)
}
// Operations on parameters
func (v Value) ParamsCount() int { return int(C.LLVMCountParams(v.C)) }
func (v Value) Params() []Value {
out := make([]Value, v.ParamsCount())
if len(out) > 0 {
C.LLVMGetParams(v.C, llvmValueRefPtr(&out[0]))
}
return out
}
func (v Value) Param(i int) (rv Value) { rv.C = C.LLVMGetParam(v.C, C.unsigned(i)); return }
func (v Value) ParamParent() (rv Value) { rv.C = C.LLVMGetParamParent(v.C); return }
func (v Value) FirstParam() (rv Value) { rv.C = C.LLVMGetFirstParam(v.C); return }
func (v Value) LastParam() (rv Value) { rv.C = C.LLVMGetLastParam(v.C); return }
func NextParam(v Value) (rv Value) { rv.C = C.LLVMGetNextParam(v.C); return }
func PrevParam(v Value) (rv Value) { rv.C = C.LLVMGetPreviousParam(v.C); return }
func (v Value) SetParamAlignment(align int) { C.LLVMSetParamAlignment(v.C, C.unsigned(align)) }
// Operations on basic blocks
func (bb BasicBlock) AsValue() (v Value) { v.C = C.LLVMBasicBlockAsValue(bb.C); return }
func (v Value) IsBasicBlock() bool { return C.LLVMValueIsBasicBlock(v.C) != 0 }
func (v Value) AsBasicBlock() (bb BasicBlock) { bb.C = C.LLVMValueAsBasicBlock(v.C); return }
func (bb BasicBlock) Parent() (v Value) { v.C = C.LLVMGetBasicBlockParent(bb.C); return }
func (v Value) BasicBlocksCount() int { return int(C.LLVMCountBasicBlocks(v.C)) }
func (v Value) BasicBlocks() []BasicBlock {
out := make([]BasicBlock, v.BasicBlocksCount())
C.LLVMGetBasicBlocks(v.C, llvmBasicBlockRefPtr(&out[0]))
return out
}
func (v Value) FirstBasicBlock() (bb BasicBlock) { bb.C = C.LLVMGetFirstBasicBlock(v.C); return }
func (v Value) LastBasicBlock() (bb BasicBlock) { bb.C = C.LLVMGetLastBasicBlock(v.C); return }
func NextBasicBlock(bb BasicBlock) (rbb BasicBlock) { rbb.C = C.LLVMGetNextBasicBlock(bb.C); return }
func PrevBasicBlock(bb BasicBlock) (rbb BasicBlock) { rbb.C = C.LLVMGetPreviousBasicBlock(bb.C); return }
func (v Value) EntryBasicBlock() (bb BasicBlock) { bb.C = C.LLVMGetEntryBasicBlock(v.C); return }
func (c Context) AddBasicBlock(f Value, name string) (bb BasicBlock) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
bb.C = C.LLVMAppendBasicBlockInContext(c.C, f.C, cname)
return
}
func (c Context) InsertBasicBlock(ref BasicBlock, name string) (bb BasicBlock) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
bb.C = C.LLVMInsertBasicBlockInContext(c.C, ref.C, cname)
return
}
func AddBasicBlock(f Value, name string) (bb BasicBlock) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
bb.C = C.LLVMAppendBasicBlock(f.C, cname)
return
}
func InsertBasicBlock(ref BasicBlock, name string) (bb BasicBlock) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
bb.C = C.LLVMInsertBasicBlock(ref.C, cname)
return
}
func (bb BasicBlock) EraseFromParent() { C.LLVMDeleteBasicBlock(bb.C) }
func (bb BasicBlock) MoveBefore(pos BasicBlock) { C.LLVMMoveBasicBlockBefore(bb.C, pos.C) }
func (bb BasicBlock) MoveAfter(pos BasicBlock) { C.LLVMMoveBasicBlockAfter(bb.C, pos.C) }
// Operations on instructions
func (v Value) EraseFromParentAsInstruction() { C.LLVMInstructionEraseFromParent(v.C) }
func (v Value) InstructionParent() (bb BasicBlock) { bb.C = C.LLVMGetInstructionParent(v.C); return }
func (v Value) InstructionDebugLoc() (md Metadata) { md.C = C.LLVMInstructionGetDebugLoc(v.C); return }
func (v Value) InstructionSetDebugLoc(md Metadata) { C.LLVMInstructionSetDebugLoc(v.C, md.C) }
func (bb BasicBlock) FirstInstruction() (v Value) { v.C = C.LLVMGetFirstInstruction(bb.C); return }
func (bb BasicBlock) LastInstruction() (v Value) { v.C = C.LLVMGetLastInstruction(bb.C); return }
func NextInstruction(v Value) (rv Value) { rv.C = C.LLVMGetNextInstruction(v.C); return }
func PrevInstruction(v Value) (rv Value) { rv.C = C.LLVMGetPreviousInstruction(v.C); return }
// Operations on call sites
func (v Value) SetInstructionCallConv(cc CallConv) {
C.LLVMSetInstructionCallConv(v.C, C.unsigned(cc))
}
func (v Value) InstructionCallConv() CallConv {
return CallConv(C.LLVMCallConv(C.LLVMGetInstructionCallConv(v.C)))
}
func (v Value) AddCallSiteAttribute(i int, a Attribute) {
C.LLVMAddCallSiteAttribute(v.C, C.LLVMAttributeIndex(i), a.C)
}
func (v Value) SetInstrParamAlignment(i int, align int) {
C.LLVMSetInstrParamAlignment(v.C, C.unsigned(i), C.unsigned(align))
}
func (v Value) CalledValue() (rv Value) {
rv.C = C.LLVMGetCalledValue(v.C)
return
}
// Operations on call instructions (only)
func (v Value) IsTailCall() bool { return C.LLVMIsTailCall(v.C) != 0 }
func (v Value) SetTailCall(is bool) { C.LLVMSetTailCall(v.C, boolToLLVMBool(is)) }
// Operations on phi nodes
func (v Value) AddIncoming(vals []Value, blocks []BasicBlock) {
ptr, nvals := llvmValueRefs(vals)
C.LLVMAddIncoming(v.C, ptr, llvmBasicBlockRefPtr(&blocks[0]), nvals)
}
func (v Value) IncomingCount() int { return int(C.LLVMCountIncoming(v.C)) }
func (v Value) IncomingValue(i int) (rv Value) {
rv.C = C.LLVMGetIncomingValue(v.C, C.unsigned(i))
return
}
func (v Value) IncomingBlock(i int) (bb BasicBlock) {
bb.C = C.LLVMGetIncomingBlock(v.C, C.unsigned(i))
return
}
// Operations on inline assembly
func InlineAsm(t Type, asmString, constraints string, hasSideEffects, isAlignStack bool, dialect InlineAsmDialect) (rv Value) {
casm := C.CString(asmString)
defer C.free(unsafe.Pointer(casm))
cconstraints := C.CString(constraints)
defer C.free(unsafe.Pointer(cconstraints))
rv.C = C.LLVMGetInlineAsm(t.C, casm, C.size_t(len(asmString)), cconstraints, C.size_t(len(constraints)), boolToLLVMBool(hasSideEffects), boolToLLVMBool(isAlignStack), C.LLVMInlineAsmDialect(dialect))
return
}
// Operations on aggregates
func (v Value) Indices() []uint32 {
num := C.LLVMGetNumIndices(v.C)
indicesPtr := C.LLVMGetIndices(v.C)
// https://github.com/golang/go/wiki/cgo#turning-c-arrays-into-go-slices
rawIndices := (*[1 << 20]C.uint)(unsafe.Pointer(indicesPtr))[:num:num]
indices := make([]uint32, num)
for i := range indices {
indices[i] = uint32(rawIndices[i])
}
return indices
}
// Operations on comparisons
func (v Value) IntPredicate() IntPredicate { return IntPredicate(C.LLVMGetICmpPredicate(v.C)) }
func (v Value) FloatPredicate() FloatPredicate { return FloatPredicate(C.LLVMGetFCmpPredicate(v.C)) }
//-------------------------------------------------------------------------
// llvm.Builder
//-------------------------------------------------------------------------
// An instruction builder represents a point within a basic block, and is the
// exclusive means of building instructions using the C interface.
func (c Context) NewBuilder() (b Builder) { b.C = C.LLVMCreateBuilderInContext(c.C); return }
func NewBuilder() (b Builder) { b.C = C.LLVMCreateBuilder(); return }
func (b Builder) SetInsertPoint(block BasicBlock, instr Value) {
C.LLVMPositionBuilder(b.C, block.C, instr.C)
}
func (b Builder) SetInsertPointBefore(instr Value) { C.LLVMPositionBuilderBefore(b.C, instr.C) }
func (b Builder) SetInsertPointAtEnd(block BasicBlock) { C.LLVMPositionBuilderAtEnd(b.C, block.C) }
func (b Builder) GetInsertBlock() (bb BasicBlock) { bb.C = C.LLVMGetInsertBlock(b.C); return }
func (b Builder) ClearInsertionPoint() { C.LLVMClearInsertionPosition(b.C) }
func (b Builder) Insert(instr Value) { C.LLVMInsertIntoBuilder(b.C, instr.C) }
func (b Builder) InsertWithName(instr Value, name string) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
C.LLVMInsertIntoBuilderWithName(b.C, instr.C, cname)
}
func (b Builder) Dispose() { C.LLVMDisposeBuilder(b.C) }
// Metadata
type DebugLoc struct {
Line, Col uint
Scope Metadata
InlinedAt Metadata
}
func (b Builder) SetCurrentDebugLocation(line, col uint, scope, inlinedAt Metadata) {
C.LLVMGoSetCurrentDebugLocation(b.C, C.unsigned(line), C.unsigned(col), scope.C, inlinedAt.C)
}
// Get current debug location. Please do not call this function until setting debug location with SetCurrentDebugLocation()
func (b Builder) GetCurrentDebugLocation() (loc DebugLoc) {
md := C.LLVMGoGetCurrentDebugLocation(b.C)
loc.Line = uint(md.Line)
loc.Col = uint(md.Col)
loc.Scope = Metadata{C: md.Scope}
loc.InlinedAt = Metadata{C: md.InlinedAt}
return
}
func (b Builder) SetInstDebugLocation(v Value) { C.LLVMSetInstDebugLocation(b.C, v.C) }
func (b Builder) InsertDeclare(module Module, storage Value, md Value) Value {
f := module.NamedFunction("llvm.dbg.declare")
if f.IsNil() {
ftyp := FunctionType(VoidType(), []Type{storage.Type(), md.Type()}, false)
f = AddFunction(module, "llvm.dbg.declare", ftyp)
}
return b.CreateCall(f, []Value{storage, md}, "")
}
// Terminators
func (b Builder) CreateRetVoid() (rv Value) { rv.C = C.LLVMBuildRetVoid(b.C); return }
func (b Builder) CreateRet(v Value) (rv Value) { rv.C = C.LLVMBuildRet(b.C, v.C); return }
func (b Builder) CreateAggregateRet(vs []Value) (rv Value) {
ptr, nvals := llvmValueRefs(vs)
rv.C = C.LLVMBuildAggregateRet(b.C, ptr, nvals)
return
}
func (b Builder) CreateBr(bb BasicBlock) (rv Value) { rv.C = C.LLVMBuildBr(b.C, bb.C); return }
func (b Builder) CreateCondBr(ifv Value, thenb, elseb BasicBlock) (rv Value) {
rv.C = C.LLVMBuildCondBr(b.C, ifv.C, thenb.C, elseb.C)
return
}
func (b Builder) CreateSwitch(v Value, elseb BasicBlock, numCases int) (rv Value) {
rv.C = C.LLVMBuildSwitch(b.C, v.C, elseb.C, C.unsigned(numCases))
return
}
func (b Builder) CreateIndirectBr(addr Value, numDests int) (rv Value) {
rv.C = C.LLVMBuildIndirectBr(b.C, addr.C, C.unsigned(numDests))
return
}
func (b Builder) CreateInvoke(fn Value, args []Value, then, catch BasicBlock, name string) (rv Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
ptr, nvals := llvmValueRefs(args)
rv.C = C.LLVMBuildInvoke(b.C, fn.C, ptr, nvals, then.C, catch.C, cname)
return
}
func (b Builder) CreateUnreachable() (rv Value) { rv.C = C.LLVMBuildUnreachable(b.C); return }
// Add a case to the switch instruction
func (v Value) AddCase(on Value, dest BasicBlock) { C.LLVMAddCase(v.C, on.C, dest.C) }
// Add a destination to the indirectbr instruction
func (v Value) AddDest(dest BasicBlock) { C.LLVMAddDestination(v.C, dest.C) }
// Arithmetic
func (b Builder) CreateAdd(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildAdd(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateNSWAdd(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildNSWAdd(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateNUWAdd(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildNUWAdd(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateFAdd(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildFAdd(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateSub(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildSub(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateNSWSub(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildNSWSub(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateNUWSub(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildNUWSub(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateFSub(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
v.C = C.LLVMBuildFSub(b.C, lhs.C, rhs.C, cname)
C.free(unsafe.Pointer(cname))
return
}
func (b Builder) CreateMul(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildMul(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateNSWMul(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildNSWMul(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateNUWMul(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildNUWMul(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateFMul(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildFMul(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateUDiv(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildUDiv(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateSDiv(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildSDiv(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateExactSDiv(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildExactSDiv(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateFDiv(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildFDiv(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateURem(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildURem(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateSRem(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildSRem(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateFRem(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildFRem(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateShl(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildShl(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateLShr(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildLShr(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateAShr(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildAShr(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateAnd(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildAnd(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateOr(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildOr(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateXor(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildXor(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateBinOp(op Opcode, lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildBinOp(b.C, C.LLVMOpcode(op), lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateNeg(v Value, name string) (rv Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
rv.C = C.LLVMBuildNeg(b.C, v.C, cname)
return
}
func (b Builder) CreateNSWNeg(v Value, name string) (rv Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
rv.C = C.LLVMBuildNSWNeg(b.C, v.C, cname)
return
}
func (b Builder) CreateNUWNeg(v Value, name string) (rv Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
rv.C = C.LLVMBuildNUWNeg(b.C, v.C, cname)
return
}
func (b Builder) CreateFNeg(v Value, name string) (rv Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
rv.C = C.LLVMBuildFNeg(b.C, v.C, cname)
return
}
func (b Builder) CreateNot(v Value, name string) (rv Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
rv.C = C.LLVMBuildNot(b.C, v.C, cname)
return
}
// Memory
func (b Builder) CreateMalloc(t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildMalloc(b.C, t.C, cname)
return
}
func (b Builder) CreateArrayMalloc(t Type, val Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildArrayMalloc(b.C, t.C, val.C, cname)
return
}
func (b Builder) CreateAlloca(t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildAlloca(b.C, t.C, cname)
return
}
func (b Builder) CreateArrayAlloca(t Type, val Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildArrayAlloca(b.C, t.C, val.C, cname)
return
}
func (b Builder) CreateFree(p Value) (v Value) {
v.C = C.LLVMBuildFree(b.C, p.C)
return
}
func (b Builder) CreateLoad(p Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildLoad(b.C, p.C, cname)
return
}
func (b Builder) CreateStore(val Value, p Value) (v Value) {
v.C = C.LLVMBuildStore(b.C, val.C, p.C)
return
}
func (b Builder) CreateGEP(p Value, indices []Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
ptr, nvals := llvmValueRefs(indices)
v.C = C.LLVMBuildGEP(b.C, p.C, ptr, nvals, cname)
return
}
func (b Builder) CreateInBoundsGEP(p Value, indices []Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
ptr, nvals := llvmValueRefs(indices)
v.C = C.LLVMBuildInBoundsGEP(b.C, p.C, ptr, nvals, cname)
return
}
func (b Builder) CreateStructGEP(p Value, i int, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildStructGEP(b.C, p.C, C.unsigned(i), cname)
return
}
func (b Builder) CreateGlobalString(str, name string) (v Value) {
cstr := C.CString(str)
defer C.free(unsafe.Pointer(cstr))
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildGlobalString(b.C, cstr, cname)
return
}
func (b Builder) CreateGlobalStringPtr(str, name string) (v Value) {
cstr := C.CString(str)
defer C.free(unsafe.Pointer(cstr))
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildGlobalStringPtr(b.C, cstr, cname)
return
}
func (b Builder) CreateAtomicRMW(op AtomicRMWBinOp, ptr, val Value, ordering AtomicOrdering, singleThread bool) (v Value) {
v.C = C.LLVMBuildAtomicRMW(b.C, C.LLVMAtomicRMWBinOp(op), ptr.C, val.C, C.LLVMAtomicOrdering(ordering), boolToLLVMBool(singleThread))
return
}
func (b Builder) CreateAtomicCmpXchg(ptr, cmp, newVal Value, successOrdering, failureOrdering AtomicOrdering, singleThread bool) (v Value) {
v.C = C.LLVMBuildAtomicCmpXchg(b.C, ptr.C, cmp.C, newVal.C, C.LLVMAtomicOrdering(successOrdering), C.LLVMAtomicOrdering(failureOrdering), boolToLLVMBool(singleThread))
return
}
// Casts
func (b Builder) CreateTrunc(val Value, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildTrunc(b.C, val.C, t.C, cname)
return
}
func (b Builder) CreateZExt(val Value, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildZExt(b.C, val.C, t.C, cname)
return
}
func (b Builder) CreateSExt(val Value, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildSExt(b.C, val.C, t.C, cname)
return
}
func (b Builder) CreateFPToUI(val Value, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildFPToUI(b.C, val.C, t.C, cname)
return
}
func (b Builder) CreateFPToSI(val Value, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildFPToSI(b.C, val.C, t.C, cname)
return
}
func (b Builder) CreateUIToFP(val Value, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildUIToFP(b.C, val.C, t.C, cname)
return
}
func (b Builder) CreateSIToFP(val Value, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildSIToFP(b.C, val.C, t.C, cname)
return
}
func (b Builder) CreateFPTrunc(val Value, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildFPTrunc(b.C, val.C, t.C, cname)
return
}
func (b Builder) CreateFPExt(val Value, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildFPExt(b.C, val.C, t.C, cname)
return
}
func (b Builder) CreatePtrToInt(val Value, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildPtrToInt(b.C, val.C, t.C, cname)
return
}
func (b Builder) CreateIntToPtr(val Value, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildIntToPtr(b.C, val.C, t.C, cname)
return
}
func (b Builder) CreateBitCast(val Value, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildBitCast(b.C, val.C, t.C, cname)
return
}
func (b Builder) CreateZExtOrBitCast(val Value, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildZExtOrBitCast(b.C, val.C, t.C, cname)
return
}
func (b Builder) CreateSExtOrBitCast(val Value, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildSExtOrBitCast(b.C, val.C, t.C, cname)
return
}
func (b Builder) CreateTruncOrBitCast(val Value, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildTruncOrBitCast(b.C, val.C, t.C, cname)
return
}
func (b Builder) CreateCast(val Value, op Opcode, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildCast(b.C, C.LLVMOpcode(op), val.C, t.C, cname)
return
} //
func (b Builder) CreatePointerCast(val Value, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildPointerCast(b.C, val.C, t.C, cname)
return
}
func (b Builder) CreateIntCast(val Value, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildIntCast(b.C, val.C, t.C, cname)
return
}
func (b Builder) CreateFPCast(val Value, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildFPCast(b.C, val.C, t.C, cname)
return
}
// Comparisons
func (b Builder) CreateICmp(pred IntPredicate, lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildICmp(b.C, C.LLVMIntPredicate(pred), lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateFCmp(pred FloatPredicate, lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildFCmp(b.C, C.LLVMRealPredicate(pred), lhs.C, rhs.C, cname)
return
}
// Miscellaneous instructions
func (b Builder) CreatePHI(t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildPhi(b.C, t.C, cname)
return
}
func (b Builder) CreateCall(fn Value, args []Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
ptr, nvals := llvmValueRefs(args)
v.C = C.LLVMBuildCall(b.C, fn.C, ptr, nvals, cname)
return
}
func (b Builder) CreateSelect(ifv, thenv, elsev Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildSelect(b.C, ifv.C, thenv.C, elsev.C, cname)
return
}
func (b Builder) CreateVAArg(list Value, t Type, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildVAArg(b.C, list.C, t.C, cname)
return
}
func (b Builder) CreateExtractElement(vec, i Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildExtractElement(b.C, vec.C, i.C, cname)
return
}
func (b Builder) CreateInsertElement(vec, elt, i Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildInsertElement(b.C, vec.C, elt.C, i.C, cname)
return
}
func (b Builder) CreateShuffleVector(v1, v2, mask Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildShuffleVector(b.C, v1.C, v2.C, mask.C, cname)
return
}
func (b Builder) CreateExtractValue(agg Value, i int, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildExtractValue(b.C, agg.C, C.unsigned(i), cname)
return
}
func (b Builder) CreateInsertValue(agg, elt Value, i int, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildInsertValue(b.C, agg.C, elt.C, C.unsigned(i), cname)
return
}
func (b Builder) CreateIsNull(val Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildIsNull(b.C, val.C, cname)
return
}
func (b Builder) CreateIsNotNull(val Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildIsNotNull(b.C, val.C, cname)
return
}
func (b Builder) CreatePtrDiff(lhs, rhs Value, name string) (v Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
v.C = C.LLVMBuildPtrDiff(b.C, lhs.C, rhs.C, cname)
return
}
func (b Builder) CreateLandingPad(t Type, nclauses int, name string) (l Value) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
l.C = C.LLVMBuildLandingPad(b.C, t.C, nil, C.unsigned(nclauses), cname)
return l
}
func (l Value) AddClause(v Value) {
C.LLVMAddClause(l.C, v.C)
}
func (l Value) SetCleanup(cleanup bool) {
C.LLVMSetCleanup(l.C, boolToLLVMBool(cleanup))
}
func (b Builder) CreateResume(ex Value) (v Value) {
v.C = C.LLVMBuildResume(b.C, ex.C)
return
}
//-------------------------------------------------------------------------
// llvm.ModuleProvider
//-------------------------------------------------------------------------
// Changes the type of M so it can be passed to FunctionPassManagers and the
// JIT. They take ModuleProviders for historical reasons.
func NewModuleProviderForModule(m Module) (mp ModuleProvider) {
mp.C = C.LLVMCreateModuleProviderForExistingModule(m.C)
return
}
// Destroys the module M.
func (mp ModuleProvider) Dispose() { C.LLVMDisposeModuleProvider(mp.C) }
//-------------------------------------------------------------------------
// llvm.MemoryBuffer
//-------------------------------------------------------------------------
func NewMemoryBufferFromFile(path string) (b MemoryBuffer, err error) {
var cmsg *C.char
cpath := C.CString(path)
defer C.free(unsafe.Pointer(cpath))
fail := C.LLVMCreateMemoryBufferWithContentsOfFile(cpath, &b.C, &cmsg)
if fail != 0 {
b.C = nil
err = errors.New(C.GoString(cmsg))
C.LLVMDisposeMessage(cmsg)
}
return
}
func NewMemoryBufferFromStdin() (b MemoryBuffer, err error) {
var cmsg *C.char
fail := C.LLVMCreateMemoryBufferWithSTDIN(&b.C, &cmsg)
if fail != 0 {
b.C = nil
err = errors.New(C.GoString(cmsg))
C.LLVMDisposeMessage(cmsg)
}
return
}
func (b MemoryBuffer) Bytes() []byte {
cstart := C.LLVMGetBufferStart(b.C)
csize := C.LLVMGetBufferSize(b.C)
return C.GoBytes(unsafe.Pointer(cstart), C.int(csize))
}
func (b MemoryBuffer) Dispose() { C.LLVMDisposeMemoryBuffer(b.C) }
//-------------------------------------------------------------------------
// llvm.PassManager
//-------------------------------------------------------------------------
// 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.
func NewPassManager() (pm PassManager) { pm.C = C.LLVMCreatePassManager(); return }
// 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.
func NewFunctionPassManagerForModule(m Module) (pm PassManager) {
pm.C = C.LLVMCreateFunctionPassManagerForModule(m.C)
return
}
// 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&).
func (pm PassManager) Run(m Module) bool { return C.LLVMRunPassManager(pm.C, m.C) != 0 }
// 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.
func (pm PassManager) InitializeFunc() bool { return C.LLVMInitializeFunctionPassManager(pm.C) != 0 }
// 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&).
func (pm PassManager) RunFunc(f Value) bool { return C.LLVMRunFunctionPassManager(pm.C, f.C) != 0 }
// Finalizes 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::doFinalization.
func (pm PassManager) FinalizeFunc() bool { return C.LLVMFinalizeFunctionPassManager(pm.C) != 0 }
// Frees the memory of a pass pipeline. For function pipelines, does not free
// the module provider.
// See llvm::PassManagerBase::~PassManagerBase.
func (pm PassManager) Dispose() { C.LLVMDisposePassManager(pm.C) }
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