mirror of
https://github.com/RPCS3/llvm-mirror.git
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160569ecbc
And add llvm-go back to the test dependencies. No longer necessary now that llvm-go has been brought back. This reverts commit e8f8873da5eaad187f82dad78ebdb3ab3df22b36.
297 lines
9.7 KiB
Go
297 lines
9.7 KiB
Go
//===- target.go - Bindings for target ------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file defines bindings for the target component.
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//
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//===----------------------------------------------------------------------===//
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package llvm
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/*
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#include "llvm-c/Core.h"
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#include "llvm-c/Target.h"
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#include "llvm-c/TargetMachine.h"
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#include <stdlib.h>
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*/
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import "C"
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import "unsafe"
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import "errors"
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type (
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TargetData struct {
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C C.LLVMTargetDataRef
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}
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Target struct {
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C C.LLVMTargetRef
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}
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TargetMachine struct {
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C C.LLVMTargetMachineRef
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}
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ByteOrdering C.enum_LLVMByteOrdering
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RelocMode C.LLVMRelocMode
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CodeGenOptLevel C.LLVMCodeGenOptLevel
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CodeGenFileType C.LLVMCodeGenFileType
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CodeModel C.LLVMCodeModel
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)
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const (
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BigEndian ByteOrdering = C.LLVMBigEndian
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LittleEndian ByteOrdering = C.LLVMLittleEndian
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)
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const (
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RelocDefault RelocMode = C.LLVMRelocDefault
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RelocStatic RelocMode = C.LLVMRelocStatic
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RelocPIC RelocMode = C.LLVMRelocPIC
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RelocDynamicNoPic RelocMode = C.LLVMRelocDynamicNoPic
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)
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const (
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CodeGenLevelNone CodeGenOptLevel = C.LLVMCodeGenLevelNone
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CodeGenLevelLess CodeGenOptLevel = C.LLVMCodeGenLevelLess
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CodeGenLevelDefault CodeGenOptLevel = C.LLVMCodeGenLevelDefault
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CodeGenLevelAggressive CodeGenOptLevel = C.LLVMCodeGenLevelAggressive
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)
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const (
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CodeModelDefault CodeModel = C.LLVMCodeModelDefault
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CodeModelJITDefault CodeModel = C.LLVMCodeModelJITDefault
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CodeModelTiny CodeModel = C.LLVMCodeModelTiny
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CodeModelSmall CodeModel = C.LLVMCodeModelSmall
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CodeModelKernel CodeModel = C.LLVMCodeModelKernel
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CodeModelMedium CodeModel = C.LLVMCodeModelMedium
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CodeModelLarge CodeModel = C.LLVMCodeModelLarge
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)
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const (
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AssemblyFile CodeGenFileType = C.LLVMAssemblyFile
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ObjectFile CodeGenFileType = C.LLVMObjectFile
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)
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// InitializeAllTargetInfos - The main program should call this function if it
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// wants access to all available targets that LLVM is configured to support.
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func InitializeAllTargetInfos() { C.LLVMInitializeAllTargetInfos() }
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// InitializeAllTargets - The main program should call this function if it wants
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// to link in all available targets that LLVM is configured to support.
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func InitializeAllTargets() { C.LLVMInitializeAllTargets() }
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func InitializeAllTargetMCs() { C.LLVMInitializeAllTargetMCs() }
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func InitializeAllAsmParsers() { C.LLVMInitializeAllAsmParsers() }
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func InitializeAllAsmPrinters() { C.LLVMInitializeAllAsmPrinters() }
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var initializeNativeTargetError = errors.New("Failed to initialize native target")
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// InitializeNativeTarget - The main program should call this function to
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// initialize the native target corresponding to the host. This is useful
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// for JIT applications to ensure that the target gets linked in correctly.
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func InitializeNativeTarget() error {
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fail := C.LLVMInitializeNativeTarget()
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if fail != 0 {
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return initializeNativeTargetError
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}
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return nil
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}
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func InitializeNativeAsmPrinter() error {
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fail := C.LLVMInitializeNativeAsmPrinter()
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if fail != 0 {
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return initializeNativeTargetError
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}
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return nil
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}
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//-------------------------------------------------------------------------
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// llvm.TargetData
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//-------------------------------------------------------------------------
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// Creates target data from a target layout string.
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// See the constructor llvm::TargetData::TargetData.
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func NewTargetData(rep string) (td TargetData) {
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crep := C.CString(rep)
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defer C.free(unsafe.Pointer(crep))
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td.C = C.LLVMCreateTargetData(crep)
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return
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}
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// Converts target data to a target layout string. The string must be disposed
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// with LLVMDisposeMessage.
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// See the constructor llvm::TargetData::TargetData.
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func (td TargetData) String() (s string) {
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cmsg := C.LLVMCopyStringRepOfTargetData(td.C)
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s = C.GoString(cmsg)
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C.LLVMDisposeMessage(cmsg)
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return
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}
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// Returns the byte order of a target, either BigEndian or LittleEndian.
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// See the method llvm::TargetData::isLittleEndian.
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func (td TargetData) ByteOrder() ByteOrdering { return ByteOrdering(C.LLVMByteOrder(td.C)) }
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// Returns the pointer size in bytes for a target.
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// See the method llvm::TargetData::getPointerSize.
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func (td TargetData) PointerSize() int { return int(C.LLVMPointerSize(td.C)) }
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// Returns the integer type that is the same size as a pointer on a target.
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// See the method llvm::TargetData::getIntPtrType.
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func (td TargetData) IntPtrType() (t Type) { t.C = C.LLVMIntPtrType(td.C); return }
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// Computes the size of a type in bytes for a target.
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// See the method llvm::TargetData::getTypeSizeInBits.
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func (td TargetData) TypeSizeInBits(t Type) uint64 {
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return uint64(C.LLVMSizeOfTypeInBits(td.C, t.C))
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}
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// Computes the storage size of a type in bytes for a target.
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// See the method llvm::TargetData::getTypeStoreSize.
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func (td TargetData) TypeStoreSize(t Type) uint64 {
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return uint64(C.LLVMStoreSizeOfType(td.C, t.C))
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}
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// Computes the ABI size of a type in bytes for a target.
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// See the method llvm::TargetData::getTypeAllocSize.
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func (td TargetData) TypeAllocSize(t Type) uint64 {
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return uint64(C.LLVMABISizeOfType(td.C, t.C))
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}
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// Computes the ABI alignment of a type in bytes for a target.
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// See the method llvm::TargetData::getABITypeAlignment.
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func (td TargetData) ABITypeAlignment(t Type) int {
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return int(C.LLVMABIAlignmentOfType(td.C, t.C))
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}
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// Computes the call frame alignment of a type in bytes for a target.
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// See the method llvm::TargetData::getCallFrameTypeAlignment.
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func (td TargetData) CallFrameTypeAlignment(t Type) int {
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return int(C.LLVMCallFrameAlignmentOfType(td.C, t.C))
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}
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// Computes the preferred alignment of a type in bytes for a target.
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// See the method llvm::TargetData::getPrefTypeAlignment.
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func (td TargetData) PrefTypeAlignment(t Type) int {
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return int(C.LLVMPreferredAlignmentOfType(td.C, t.C))
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}
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// Computes the preferred alignment of a global variable in bytes for a target.
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// See the method llvm::TargetData::getPreferredAlignment.
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func (td TargetData) PreferredAlignment(g Value) int {
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return int(C.LLVMPreferredAlignmentOfGlobal(td.C, g.C))
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}
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// Computes the structure element that contains the byte offset for a target.
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// See the method llvm::StructLayout::getElementContainingOffset.
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func (td TargetData) ElementContainingOffset(t Type, offset uint64) int {
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return int(C.LLVMElementAtOffset(td.C, t.C, C.ulonglong(offset)))
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}
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// Computes the byte offset of the indexed struct element for a target.
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// See the method llvm::StructLayout::getElementOffset.
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func (td TargetData) ElementOffset(t Type, element int) uint64 {
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return uint64(C.LLVMOffsetOfElement(td.C, t.C, C.unsigned(element)))
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}
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// Deallocates a TargetData.
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// See the destructor llvm::TargetData::~TargetData.
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func (td TargetData) Dispose() { C.LLVMDisposeTargetData(td.C) }
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//-------------------------------------------------------------------------
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// llvm.Target
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//-------------------------------------------------------------------------
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func FirstTarget() Target {
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return Target{C.LLVMGetFirstTarget()}
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}
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func (t Target) NextTarget() Target {
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return Target{C.LLVMGetNextTarget(t.C)}
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}
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func GetTargetFromTriple(triple string) (t Target, err error) {
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var errstr *C.char
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ctriple := C.CString(triple)
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defer C.free(unsafe.Pointer(ctriple))
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fail := C.LLVMGetTargetFromTriple(ctriple, &t.C, &errstr)
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if fail != 0 {
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err = errors.New(C.GoString(errstr))
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C.free(unsafe.Pointer(errstr))
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}
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return
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}
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func (t Target) Name() string {
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return C.GoString(C.LLVMGetTargetName(t.C))
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}
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func (t Target) Description() string {
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return C.GoString(C.LLVMGetTargetDescription(t.C))
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}
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//-------------------------------------------------------------------------
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// llvm.TargetMachine
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//-------------------------------------------------------------------------
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// CreateTargetMachine creates a new TargetMachine.
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func (t Target) CreateTargetMachine(Triple string, CPU string, Features string,
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Level CodeGenOptLevel, Reloc RelocMode,
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CodeModel CodeModel) (tm TargetMachine) {
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cTriple := C.CString(Triple)
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defer C.free(unsafe.Pointer(cTriple))
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cCPU := C.CString(CPU)
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defer C.free(unsafe.Pointer(cCPU))
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cFeatures := C.CString(Features)
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defer C.free(unsafe.Pointer(cFeatures))
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tm.C = C.LLVMCreateTargetMachine(t.C, cTriple, cCPU, cFeatures,
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C.LLVMCodeGenOptLevel(Level),
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C.LLVMRelocMode(Reloc),
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C.LLVMCodeModel(CodeModel))
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return
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}
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// CreateTargetData returns a new TargetData describing the TargetMachine's
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// data layout. The returned TargetData is owned by the caller, who is
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// responsible for disposing of it by calling the TargetData.Dispose method.
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func (tm TargetMachine) CreateTargetData() TargetData {
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return TargetData{C.LLVMCreateTargetDataLayout(tm.C)}
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}
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// Triple returns the triple describing the machine (arch-vendor-os).
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func (tm TargetMachine) Triple() string {
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cstr := C.LLVMGetTargetMachineTriple(tm.C)
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return C.GoString(cstr)
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}
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func (tm TargetMachine) EmitToMemoryBuffer(m Module, ft CodeGenFileType) (MemoryBuffer, error) {
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var errstr *C.char
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var mb MemoryBuffer
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fail := C.LLVMTargetMachineEmitToMemoryBuffer(tm.C, m.C, C.LLVMCodeGenFileType(ft), &errstr, &mb.C)
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if fail != 0 {
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err := errors.New(C.GoString(errstr))
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C.free(unsafe.Pointer(errstr))
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return MemoryBuffer{}, err
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}
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return mb, nil
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}
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func (tm TargetMachine) AddAnalysisPasses(pm PassManager) {
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C.LLVMAddAnalysisPasses(tm.C, pm.C)
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}
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// Dispose releases resources related to the TargetMachine.
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func (tm TargetMachine) Dispose() {
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C.LLVMDisposeTargetMachine(tm.C)
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}
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func DefaultTargetTriple() (triple string) {
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cTriple := C.LLVMGetDefaultTargetTriple()
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defer C.free(unsafe.Pointer(cTriple))
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triple = C.GoString(cTriple)
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return
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}
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