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https://github.com/RPCS3/llvm-mirror.git
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b01b7f5b9d
llvm-svn: 283016
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(), AttributeSet::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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