c439438675
build glue.
318 lines
9.8 KiB
C++
318 lines
9.8 KiB
C++
//===-- LLVMContext.cpp - Implement LLVMContext ---------------------------===//
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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 implements LLVMContext, as a wrapper around the opaque
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// class LLVMContextImpl.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/IR/LLVMContext.h"
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#include "LLVMContextImpl.h"
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#include "llvm/ADT/SmallVector.h"
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#include "llvm/ADT/StringMap.h"
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#include "llvm/ADT/StringRef.h"
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#include "llvm/ADT/Twine.h"
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#include "llvm/IR/DiagnosticInfo.h"
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#include "llvm/IR/DiagnosticPrinter.h"
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#include "llvm/IR/Metadata.h"
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#include "llvm/IR/Module.h"
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#include "llvm/Support/Casting.h"
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#include "llvm/Support/ErrorHandling.h"
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#include "llvm/Support/raw_ostream.h"
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#include <cassert>
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#include <cstdlib>
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#include <string>
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#include <utility>
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using namespace llvm;
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LLVMContext::LLVMContext() : pImpl(new LLVMContextImpl(*this)) {
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// Create the fixed metadata kinds. This is done in the same order as the
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// MD_* enum values so that they correspond.
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std::pair<unsigned, StringRef> MDKinds[] = {
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{MD_dbg, "dbg"},
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{MD_tbaa, "tbaa"},
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{MD_prof, "prof"},
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{MD_fpmath, "fpmath"},
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{MD_range, "range"},
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{MD_tbaa_struct, "tbaa.struct"},
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{MD_invariant_load, "invariant.load"},
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{MD_alias_scope, "alias.scope"},
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{MD_noalias, "noalias"},
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{MD_nontemporal, "nontemporal"},
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{MD_mem_parallel_loop_access, "llvm.mem.parallel_loop_access"},
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{MD_nonnull, "nonnull"},
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{MD_dereferenceable, "dereferenceable"},
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{MD_dereferenceable_or_null, "dereferenceable_or_null"},
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{MD_make_implicit, "make.implicit"},
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{MD_unpredictable, "unpredictable"},
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{MD_invariant_group, "invariant.group"},
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{MD_align, "align"},
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{MD_loop, "llvm.loop"},
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{MD_type, "type"},
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{MD_section_prefix, "section_prefix"},
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{MD_absolute_symbol, "absolute_symbol"},
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{MD_associated, "associated"},
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};
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for (auto &MDKind : MDKinds) {
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unsigned ID = getMDKindID(MDKind.second);
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assert(ID == MDKind.first && "metadata kind id drifted");
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(void)ID;
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}
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auto *DeoptEntry = pImpl->getOrInsertBundleTag("deopt");
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assert(DeoptEntry->second == LLVMContext::OB_deopt &&
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"deopt operand bundle id drifted!");
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(void)DeoptEntry;
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auto *FuncletEntry = pImpl->getOrInsertBundleTag("funclet");
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assert(FuncletEntry->second == LLVMContext::OB_funclet &&
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"funclet operand bundle id drifted!");
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(void)FuncletEntry;
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auto *GCTransitionEntry = pImpl->getOrInsertBundleTag("gc-transition");
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assert(GCTransitionEntry->second == LLVMContext::OB_gc_transition &&
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"gc-transition operand bundle id drifted!");
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(void)GCTransitionEntry;
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SyncScope::ID SingleThreadSSID =
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pImpl->getOrInsertSyncScopeID("singlethread");
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assert(SingleThreadSSID == SyncScope::SingleThread &&
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"singlethread synchronization scope ID drifted!");
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(void)SingleThreadSSID;
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SyncScope::ID SystemSSID =
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pImpl->getOrInsertSyncScopeID("");
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assert(SystemSSID == SyncScope::System &&
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"system synchronization scope ID drifted!");
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(void)SystemSSID;
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}
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LLVMContext::~LLVMContext() { delete pImpl; }
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void LLVMContext::addModule(Module *M) {
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pImpl->OwnedModules.insert(M);
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}
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void LLVMContext::removeModule(Module *M) {
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pImpl->OwnedModules.erase(M);
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}
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//===----------------------------------------------------------------------===//
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// Recoverable Backend Errors
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//===----------------------------------------------------------------------===//
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void LLVMContext::
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setInlineAsmDiagnosticHandler(InlineAsmDiagHandlerTy DiagHandler,
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void *DiagContext) {
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pImpl->InlineAsmDiagHandler = DiagHandler;
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pImpl->InlineAsmDiagContext = DiagContext;
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}
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/// getInlineAsmDiagnosticHandler - Return the diagnostic handler set by
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/// setInlineAsmDiagnosticHandler.
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LLVMContext::InlineAsmDiagHandlerTy
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LLVMContext::getInlineAsmDiagnosticHandler() const {
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return pImpl->InlineAsmDiagHandler;
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}
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/// getInlineAsmDiagnosticContext - Return the diagnostic context set by
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/// setInlineAsmDiagnosticHandler.
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void *LLVMContext::getInlineAsmDiagnosticContext() const {
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return pImpl->InlineAsmDiagContext;
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}
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void LLVMContext::setDiagnosticHandler(DiagnosticHandlerTy DiagnosticHandler,
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void *DiagnosticContext,
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bool RespectFilters) {
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pImpl->DiagnosticHandler = DiagnosticHandler;
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pImpl->DiagnosticContext = DiagnosticContext;
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pImpl->RespectDiagnosticFilters = RespectFilters;
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}
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void LLVMContext::setDiagnosticsHotnessRequested(bool Requested) {
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pImpl->DiagnosticsHotnessRequested = Requested;
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}
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bool LLVMContext::getDiagnosticsHotnessRequested() const {
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return pImpl->DiagnosticsHotnessRequested;
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}
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void LLVMContext::setDiagnosticsHotnessThreshold(uint64_t Threshold) {
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pImpl->DiagnosticsHotnessThreshold = Threshold;
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}
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uint64_t LLVMContext::getDiagnosticsHotnessThreshold() const {
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return pImpl->DiagnosticsHotnessThreshold;
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}
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yaml::Output *LLVMContext::getDiagnosticsOutputFile() {
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return pImpl->DiagnosticsOutputFile.get();
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}
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void LLVMContext::setDiagnosticsOutputFile(std::unique_ptr<yaml::Output> F) {
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pImpl->DiagnosticsOutputFile = std::move(F);
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}
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LLVMContext::DiagnosticHandlerTy LLVMContext::getDiagnosticHandler() const {
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return pImpl->DiagnosticHandler;
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}
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void *LLVMContext::getDiagnosticContext() const {
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return pImpl->DiagnosticContext;
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}
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void LLVMContext::setYieldCallback(YieldCallbackTy Callback, void *OpaqueHandle)
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{
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pImpl->YieldCallback = Callback;
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pImpl->YieldOpaqueHandle = OpaqueHandle;
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}
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void LLVMContext::yield() {
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if (pImpl->YieldCallback)
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pImpl->YieldCallback(this, pImpl->YieldOpaqueHandle);
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}
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void LLVMContext::emitError(const Twine &ErrorStr) {
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diagnose(DiagnosticInfoInlineAsm(ErrorStr));
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}
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void LLVMContext::emitError(const Instruction *I, const Twine &ErrorStr) {
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assert (I && "Invalid instruction");
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diagnose(DiagnosticInfoInlineAsm(*I, ErrorStr));
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}
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static bool isDiagnosticEnabled(const DiagnosticInfo &DI) {
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// Optimization remarks are selective. They need to check whether the regexp
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// pattern, passed via one of the -pass-remarks* flags, matches the name of
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// the pass that is emitting the diagnostic. If there is no match, ignore the
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// diagnostic and return.
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if (auto *Remark = dyn_cast<DiagnosticInfoOptimizationBase>(&DI))
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return Remark->isEnabled();
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return true;
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}
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const char *
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LLVMContext::getDiagnosticMessagePrefix(DiagnosticSeverity Severity) {
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switch (Severity) {
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case DS_Error:
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return "error";
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case DS_Warning:
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return "warning";
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case DS_Remark:
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return "remark";
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case DS_Note:
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return "note";
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}
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llvm_unreachable("Unknown DiagnosticSeverity");
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}
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void LLVMContext::diagnose(const DiagnosticInfo &DI) {
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// If there is a report handler, use it.
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if (pImpl->DiagnosticHandler) {
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if (!pImpl->RespectDiagnosticFilters || isDiagnosticEnabled(DI))
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pImpl->DiagnosticHandler(DI, pImpl->DiagnosticContext);
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return;
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}
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if (!isDiagnosticEnabled(DI))
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return;
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// Otherwise, print the message with a prefix based on the severity.
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DiagnosticPrinterRawOStream DP(errs());
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errs() << getDiagnosticMessagePrefix(DI.getSeverity()) << ": ";
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DI.print(DP);
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errs() << "\n";
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if (DI.getSeverity() == DS_Error)
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exit(1);
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}
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void LLVMContext::emitError(unsigned LocCookie, const Twine &ErrorStr) {
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diagnose(DiagnosticInfoInlineAsm(LocCookie, ErrorStr));
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}
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//===----------------------------------------------------------------------===//
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// Metadata Kind Uniquing
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//===----------------------------------------------------------------------===//
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/// Return a unique non-zero ID for the specified metadata kind.
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unsigned LLVMContext::getMDKindID(StringRef Name) const {
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// If this is new, assign it its ID.
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return pImpl->CustomMDKindNames.insert(
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std::make_pair(
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Name, pImpl->CustomMDKindNames.size()))
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.first->second;
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}
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/// getHandlerNames - Populate client-supplied smallvector using custom
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/// metadata name and ID.
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void LLVMContext::getMDKindNames(SmallVectorImpl<StringRef> &Names) const {
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Names.resize(pImpl->CustomMDKindNames.size());
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for (StringMap<unsigned>::const_iterator I = pImpl->CustomMDKindNames.begin(),
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E = pImpl->CustomMDKindNames.end(); I != E; ++I)
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Names[I->second] = I->first();
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}
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void LLVMContext::getOperandBundleTags(SmallVectorImpl<StringRef> &Tags) const {
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pImpl->getOperandBundleTags(Tags);
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}
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uint32_t LLVMContext::getOperandBundleTagID(StringRef Tag) const {
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return pImpl->getOperandBundleTagID(Tag);
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}
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SyncScope::ID LLVMContext::getOrInsertSyncScopeID(StringRef SSN) {
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return pImpl->getOrInsertSyncScopeID(SSN);
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}
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void LLVMContext::getSyncScopeNames(SmallVectorImpl<StringRef> &SSNs) const {
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pImpl->getSyncScopeNames(SSNs);
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}
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void LLVMContext::setGC(const Function &Fn, std::string GCName) {
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auto It = pImpl->GCNames.find(&Fn);
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if (It == pImpl->GCNames.end()) {
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pImpl->GCNames.insert(std::make_pair(&Fn, std::move(GCName)));
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return;
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}
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It->second = std::move(GCName);
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}
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const std::string &LLVMContext::getGC(const Function &Fn) {
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return pImpl->GCNames[&Fn];
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}
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void LLVMContext::deleteGC(const Function &Fn) {
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pImpl->GCNames.erase(&Fn);
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}
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bool LLVMContext::shouldDiscardValueNames() const {
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return pImpl->DiscardValueNames;
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}
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bool LLVMContext::isODRUniquingDebugTypes() const { return !!pImpl->DITypeMap; }
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void LLVMContext::enableDebugTypeODRUniquing() {
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if (pImpl->DITypeMap)
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return;
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pImpl->DITypeMap.emplace();
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}
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void LLVMContext::disableDebugTypeODRUniquing() { pImpl->DITypeMap.reset(); }
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void LLVMContext::setDiscardValueNames(bool Discard) {
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pImpl->DiscardValueNames = Discard;
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}
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OptBisect &LLVMContext::getOptBisect() {
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return pImpl->getOptBisect();
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}
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