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6707770d48
Summary: This class is a list of AttributeSetNodes corresponding the function prototype of a call or function declaration. This class used to be called ParamAttrListPtr, then AttrListPtr, then AttributeSet. It is typically accessed by parameter and return value index, so "AttributeList" seems like a more intuitive name. Rename AttributeSetImpl to AttributeListImpl to follow suit. It's useful to rename this class so that we can rename AttributeSetNode to AttributeSet later. AttributeSet is the set of attributes that apply to a single function, argument, or return value. Reviewers: sanjoy, javed.absar, chandlerc, pete Reviewed By: pete Subscribers: pete, jholewinski, arsenm, dschuff, mehdi_amini, jfb, nhaehnle, sbc100, void, llvm-commits Differential Revision: https://reviews.llvm.org/D31102 git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@298393 91177308-0d34-0410-b5e6-96231b3b80d8
412 lines
14 KiB
C++
412 lines
14 KiB
C++
//===-- ExecutionEngineBindings.cpp - C bindings for EEs ------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file defines the C bindings for the ExecutionEngine library.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm-c/ExecutionEngine.h"
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#include "llvm/ExecutionEngine/ExecutionEngine.h"
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#include "llvm/ExecutionEngine/GenericValue.h"
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#include "llvm/ExecutionEngine/RTDyldMemoryManager.h"
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#include "llvm/IR/DerivedTypes.h"
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#include "llvm/IR/Module.h"
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#include "llvm/Support/CodeGenCWrappers.h"
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#include "llvm/Support/ErrorHandling.h"
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#include "llvm/Target/TargetOptions.h"
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#include <cstring>
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using namespace llvm;
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#define DEBUG_TYPE "jit"
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// Wrapping the C bindings types.
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DEFINE_SIMPLE_CONVERSION_FUNCTIONS(GenericValue, LLVMGenericValueRef)
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static LLVMTargetMachineRef wrap(const TargetMachine *P) {
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return
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reinterpret_cast<LLVMTargetMachineRef>(const_cast<TargetMachine*>(P));
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}
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/*===-- Operations on generic values --------------------------------------===*/
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LLVMGenericValueRef LLVMCreateGenericValueOfInt(LLVMTypeRef Ty,
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unsigned long long N,
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LLVMBool IsSigned) {
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GenericValue *GenVal = new GenericValue();
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GenVal->IntVal = APInt(unwrap<IntegerType>(Ty)->getBitWidth(), N, IsSigned);
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return wrap(GenVal);
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}
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LLVMGenericValueRef LLVMCreateGenericValueOfPointer(void *P) {
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GenericValue *GenVal = new GenericValue();
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GenVal->PointerVal = P;
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return wrap(GenVal);
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}
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LLVMGenericValueRef LLVMCreateGenericValueOfFloat(LLVMTypeRef TyRef, double N) {
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GenericValue *GenVal = new GenericValue();
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switch (unwrap(TyRef)->getTypeID()) {
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case Type::FloatTyID:
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GenVal->FloatVal = N;
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break;
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case Type::DoubleTyID:
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GenVal->DoubleVal = N;
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break;
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default:
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llvm_unreachable("LLVMGenericValueToFloat supports only float and double.");
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}
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return wrap(GenVal);
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}
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unsigned LLVMGenericValueIntWidth(LLVMGenericValueRef GenValRef) {
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return unwrap(GenValRef)->IntVal.getBitWidth();
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}
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unsigned long long LLVMGenericValueToInt(LLVMGenericValueRef GenValRef,
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LLVMBool IsSigned) {
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GenericValue *GenVal = unwrap(GenValRef);
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if (IsSigned)
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return GenVal->IntVal.getSExtValue();
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else
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return GenVal->IntVal.getZExtValue();
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}
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void *LLVMGenericValueToPointer(LLVMGenericValueRef GenVal) {
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return unwrap(GenVal)->PointerVal;
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}
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double LLVMGenericValueToFloat(LLVMTypeRef TyRef, LLVMGenericValueRef GenVal) {
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switch (unwrap(TyRef)->getTypeID()) {
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case Type::FloatTyID:
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return unwrap(GenVal)->FloatVal;
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case Type::DoubleTyID:
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return unwrap(GenVal)->DoubleVal;
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default:
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llvm_unreachable("LLVMGenericValueToFloat supports only float and double.");
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}
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}
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void LLVMDisposeGenericValue(LLVMGenericValueRef GenVal) {
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delete unwrap(GenVal);
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}
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/*===-- Operations on execution engines -----------------------------------===*/
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LLVMBool LLVMCreateExecutionEngineForModule(LLVMExecutionEngineRef *OutEE,
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LLVMModuleRef M,
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char **OutError) {
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std::string Error;
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EngineBuilder builder(std::unique_ptr<Module>(unwrap(M)));
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builder.setEngineKind(EngineKind::Either)
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.setErrorStr(&Error);
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if (ExecutionEngine *EE = builder.create()){
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*OutEE = wrap(EE);
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return 0;
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}
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*OutError = strdup(Error.c_str());
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return 1;
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}
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LLVMBool LLVMCreateInterpreterForModule(LLVMExecutionEngineRef *OutInterp,
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LLVMModuleRef M,
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char **OutError) {
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std::string Error;
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EngineBuilder builder(std::unique_ptr<Module>(unwrap(M)));
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builder.setEngineKind(EngineKind::Interpreter)
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.setErrorStr(&Error);
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if (ExecutionEngine *Interp = builder.create()) {
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*OutInterp = wrap(Interp);
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return 0;
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}
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*OutError = strdup(Error.c_str());
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return 1;
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}
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LLVMBool LLVMCreateJITCompilerForModule(LLVMExecutionEngineRef *OutJIT,
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LLVMModuleRef M,
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unsigned OptLevel,
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char **OutError) {
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std::string Error;
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EngineBuilder builder(std::unique_ptr<Module>(unwrap(M)));
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builder.setEngineKind(EngineKind::JIT)
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.setErrorStr(&Error)
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.setOptLevel((CodeGenOpt::Level)OptLevel);
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if (ExecutionEngine *JIT = builder.create()) {
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*OutJIT = wrap(JIT);
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return 0;
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}
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*OutError = strdup(Error.c_str());
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return 1;
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}
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void LLVMInitializeMCJITCompilerOptions(LLVMMCJITCompilerOptions *PassedOptions,
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size_t SizeOfPassedOptions) {
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LLVMMCJITCompilerOptions options;
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memset(&options, 0, sizeof(options)); // Most fields are zero by default.
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options.CodeModel = LLVMCodeModelJITDefault;
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memcpy(PassedOptions, &options,
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std::min(sizeof(options), SizeOfPassedOptions));
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}
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LLVMBool LLVMCreateMCJITCompilerForModule(
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LLVMExecutionEngineRef *OutJIT, LLVMModuleRef M,
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LLVMMCJITCompilerOptions *PassedOptions, size_t SizeOfPassedOptions,
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char **OutError) {
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LLVMMCJITCompilerOptions options;
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// If the user passed a larger sized options struct, then they were compiled
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// against a newer LLVM. Tell them that something is wrong.
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if (SizeOfPassedOptions > sizeof(options)) {
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*OutError = strdup(
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"Refusing to use options struct that is larger than my own; assuming "
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"LLVM library mismatch.");
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return 1;
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}
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// Defend against the user having an old version of the API by ensuring that
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// any fields they didn't see are cleared. We must defend against fields being
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// set to the bitwise equivalent of zero, and assume that this means "do the
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// default" as if that option hadn't been available.
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LLVMInitializeMCJITCompilerOptions(&options, sizeof(options));
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memcpy(&options, PassedOptions, SizeOfPassedOptions);
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TargetOptions targetOptions;
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targetOptions.EnableFastISel = options.EnableFastISel;
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std::unique_ptr<Module> Mod(unwrap(M));
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if (Mod)
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// Set function attribute "no-frame-pointer-elim" based on
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// NoFramePointerElim.
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for (auto &F : *Mod) {
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auto Attrs = F.getAttributes();
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StringRef Value(options.NoFramePointerElim ? "true" : "false");
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Attrs = Attrs.addAttribute(F.getContext(), AttributeList::FunctionIndex,
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"no-frame-pointer-elim", Value);
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F.setAttributes(Attrs);
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}
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std::string Error;
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EngineBuilder builder(std::move(Mod));
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builder.setEngineKind(EngineKind::JIT)
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.setErrorStr(&Error)
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.setOptLevel((CodeGenOpt::Level)options.OptLevel)
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.setCodeModel(unwrap(options.CodeModel))
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.setTargetOptions(targetOptions);
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if (options.MCJMM)
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builder.setMCJITMemoryManager(
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std::unique_ptr<RTDyldMemoryManager>(unwrap(options.MCJMM)));
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if (ExecutionEngine *JIT = builder.create()) {
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*OutJIT = wrap(JIT);
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return 0;
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}
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*OutError = strdup(Error.c_str());
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return 1;
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}
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void LLVMDisposeExecutionEngine(LLVMExecutionEngineRef EE) {
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delete unwrap(EE);
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}
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void LLVMRunStaticConstructors(LLVMExecutionEngineRef EE) {
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unwrap(EE)->finalizeObject();
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unwrap(EE)->runStaticConstructorsDestructors(false);
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}
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void LLVMRunStaticDestructors(LLVMExecutionEngineRef EE) {
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unwrap(EE)->finalizeObject();
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unwrap(EE)->runStaticConstructorsDestructors(true);
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}
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int LLVMRunFunctionAsMain(LLVMExecutionEngineRef EE, LLVMValueRef F,
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unsigned ArgC, const char * const *ArgV,
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const char * const *EnvP) {
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unwrap(EE)->finalizeObject();
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std::vector<std::string> ArgVec(ArgV, ArgV + ArgC);
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return unwrap(EE)->runFunctionAsMain(unwrap<Function>(F), ArgVec, EnvP);
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}
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LLVMGenericValueRef LLVMRunFunction(LLVMExecutionEngineRef EE, LLVMValueRef F,
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unsigned NumArgs,
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LLVMGenericValueRef *Args) {
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unwrap(EE)->finalizeObject();
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std::vector<GenericValue> ArgVec;
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ArgVec.reserve(NumArgs);
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for (unsigned I = 0; I != NumArgs; ++I)
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ArgVec.push_back(*unwrap(Args[I]));
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GenericValue *Result = new GenericValue();
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*Result = unwrap(EE)->runFunction(unwrap<Function>(F), ArgVec);
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return wrap(Result);
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}
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void LLVMFreeMachineCodeForFunction(LLVMExecutionEngineRef EE, LLVMValueRef F) {
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}
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void LLVMAddModule(LLVMExecutionEngineRef EE, LLVMModuleRef M){
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unwrap(EE)->addModule(std::unique_ptr<Module>(unwrap(M)));
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}
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LLVMBool LLVMRemoveModule(LLVMExecutionEngineRef EE, LLVMModuleRef M,
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LLVMModuleRef *OutMod, char **OutError) {
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Module *Mod = unwrap(M);
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unwrap(EE)->removeModule(Mod);
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*OutMod = wrap(Mod);
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return 0;
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}
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LLVMBool LLVMFindFunction(LLVMExecutionEngineRef EE, const char *Name,
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LLVMValueRef *OutFn) {
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if (Function *F = unwrap(EE)->FindFunctionNamed(Name)) {
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*OutFn = wrap(F);
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return 0;
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}
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return 1;
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}
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void *LLVMRecompileAndRelinkFunction(LLVMExecutionEngineRef EE,
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LLVMValueRef Fn) {
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return nullptr;
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}
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LLVMTargetDataRef LLVMGetExecutionEngineTargetData(LLVMExecutionEngineRef EE) {
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return wrap(&unwrap(EE)->getDataLayout());
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}
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LLVMTargetMachineRef
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LLVMGetExecutionEngineTargetMachine(LLVMExecutionEngineRef EE) {
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return wrap(unwrap(EE)->getTargetMachine());
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}
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void LLVMAddGlobalMapping(LLVMExecutionEngineRef EE, LLVMValueRef Global,
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void* Addr) {
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unwrap(EE)->addGlobalMapping(unwrap<GlobalValue>(Global), Addr);
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}
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void *LLVMGetPointerToGlobal(LLVMExecutionEngineRef EE, LLVMValueRef Global) {
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unwrap(EE)->finalizeObject();
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return unwrap(EE)->getPointerToGlobal(unwrap<GlobalValue>(Global));
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}
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uint64_t LLVMGetGlobalValueAddress(LLVMExecutionEngineRef EE, const char *Name) {
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return unwrap(EE)->getGlobalValueAddress(Name);
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}
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uint64_t LLVMGetFunctionAddress(LLVMExecutionEngineRef EE, const char *Name) {
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return unwrap(EE)->getFunctionAddress(Name);
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}
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/*===-- Operations on memory managers -------------------------------------===*/
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namespace {
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struct SimpleBindingMMFunctions {
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LLVMMemoryManagerAllocateCodeSectionCallback AllocateCodeSection;
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LLVMMemoryManagerAllocateDataSectionCallback AllocateDataSection;
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LLVMMemoryManagerFinalizeMemoryCallback FinalizeMemory;
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LLVMMemoryManagerDestroyCallback Destroy;
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};
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class SimpleBindingMemoryManager : public RTDyldMemoryManager {
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public:
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SimpleBindingMemoryManager(const SimpleBindingMMFunctions& Functions,
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void *Opaque);
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~SimpleBindingMemoryManager() override;
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uint8_t *allocateCodeSection(uintptr_t Size, unsigned Alignment,
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unsigned SectionID,
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StringRef SectionName) override;
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uint8_t *allocateDataSection(uintptr_t Size, unsigned Alignment,
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unsigned SectionID, StringRef SectionName,
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bool isReadOnly) override;
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bool finalizeMemory(std::string *ErrMsg) override;
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private:
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SimpleBindingMMFunctions Functions;
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void *Opaque;
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};
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SimpleBindingMemoryManager::SimpleBindingMemoryManager(
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const SimpleBindingMMFunctions& Functions,
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void *Opaque)
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: Functions(Functions), Opaque(Opaque) {
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assert(Functions.AllocateCodeSection &&
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"No AllocateCodeSection function provided!");
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assert(Functions.AllocateDataSection &&
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"No AllocateDataSection function provided!");
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assert(Functions.FinalizeMemory &&
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"No FinalizeMemory function provided!");
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assert(Functions.Destroy &&
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"No Destroy function provided!");
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}
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SimpleBindingMemoryManager::~SimpleBindingMemoryManager() {
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Functions.Destroy(Opaque);
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}
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uint8_t *SimpleBindingMemoryManager::allocateCodeSection(
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uintptr_t Size, unsigned Alignment, unsigned SectionID,
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StringRef SectionName) {
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return Functions.AllocateCodeSection(Opaque, Size, Alignment, SectionID,
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SectionName.str().c_str());
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}
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uint8_t *SimpleBindingMemoryManager::allocateDataSection(
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uintptr_t Size, unsigned Alignment, unsigned SectionID,
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StringRef SectionName, bool isReadOnly) {
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return Functions.AllocateDataSection(Opaque, Size, Alignment, SectionID,
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SectionName.str().c_str(),
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isReadOnly);
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}
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bool SimpleBindingMemoryManager::finalizeMemory(std::string *ErrMsg) {
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char *errMsgCString = nullptr;
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bool result = Functions.FinalizeMemory(Opaque, &errMsgCString);
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assert((result || !errMsgCString) &&
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"Did not expect an error message if FinalizeMemory succeeded");
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if (errMsgCString) {
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if (ErrMsg)
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*ErrMsg = errMsgCString;
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free(errMsgCString);
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}
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return result;
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}
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} // anonymous namespace
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LLVMMCJITMemoryManagerRef LLVMCreateSimpleMCJITMemoryManager(
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void *Opaque,
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LLVMMemoryManagerAllocateCodeSectionCallback AllocateCodeSection,
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LLVMMemoryManagerAllocateDataSectionCallback AllocateDataSection,
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LLVMMemoryManagerFinalizeMemoryCallback FinalizeMemory,
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LLVMMemoryManagerDestroyCallback Destroy) {
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if (!AllocateCodeSection || !AllocateDataSection || !FinalizeMemory ||
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!Destroy)
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return nullptr;
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SimpleBindingMMFunctions functions;
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functions.AllocateCodeSection = AllocateCodeSection;
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functions.AllocateDataSection = AllocateDataSection;
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functions.FinalizeMemory = FinalizeMemory;
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functions.Destroy = Destroy;
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return wrap(new SimpleBindingMemoryManager(functions, Opaque));
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}
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void LLVMDisposeMCJITMemoryManager(LLVMMCJITMemoryManagerRef MM) {
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delete unwrap(MM);
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}
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