mirror of
https://github.com/capstone-engine/llvm-capstone.git
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8ed8dbd96a
Updating the diagnostics in the launch_bounds test since they have been improved in that case. Adding a test for nonnull since it has little test coverage, but has truly variadic arguments. llvm-svn: 214407
217 lines
6.5 KiB
C++
217 lines
6.5 KiB
C++
//===--- AttributeList.cpp --------------------------------------*- C++ -*-===//
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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 AttributeList class implementation
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//
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//===----------------------------------------------------------------------===//
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#include "clang/Sema/AttributeList.h"
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#include "clang/AST/ASTContext.h"
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#include "clang/AST/DeclCXX.h"
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#include "clang/AST/DeclTemplate.h"
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#include "clang/AST/Expr.h"
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#include "clang/Basic/IdentifierTable.h"
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#include "clang/Sema/SemaInternal.h"
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#include "llvm/ADT/SmallString.h"
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#include "llvm/ADT/StringSwitch.h"
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using namespace clang;
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IdentifierLoc *IdentifierLoc::create(ASTContext &Ctx, SourceLocation Loc,
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IdentifierInfo *Ident) {
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IdentifierLoc *Result = new (Ctx) IdentifierLoc;
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Result->Loc = Loc;
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Result->Ident = Ident;
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return Result;
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}
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size_t AttributeList::allocated_size() const {
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if (IsAvailability) return AttributeFactory::AvailabilityAllocSize;
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else if (IsTypeTagForDatatype)
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return AttributeFactory::TypeTagForDatatypeAllocSize;
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else if (IsProperty)
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return AttributeFactory::PropertyAllocSize;
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return (sizeof(AttributeList) + NumArgs * sizeof(ArgsUnion));
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}
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AttributeFactory::AttributeFactory() {
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// Go ahead and configure all the inline capacity. This is just a memset.
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FreeLists.resize(InlineFreeListsCapacity);
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}
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AttributeFactory::~AttributeFactory() {}
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static size_t getFreeListIndexForSize(size_t size) {
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assert(size >= sizeof(AttributeList));
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assert((size % sizeof(void*)) == 0);
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return ((size - sizeof(AttributeList)) / sizeof(void*));
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}
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void *AttributeFactory::allocate(size_t size) {
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// Check for a previously reclaimed attribute.
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size_t index = getFreeListIndexForSize(size);
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if (index < FreeLists.size()) {
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if (AttributeList *attr = FreeLists[index]) {
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FreeLists[index] = attr->NextInPool;
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return attr;
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}
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}
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// Otherwise, allocate something new.
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return Alloc.Allocate(size, llvm::AlignOf<AttributeFactory>::Alignment);
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}
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void AttributeFactory::reclaimPool(AttributeList *cur) {
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assert(cur && "reclaiming empty pool!");
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do {
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// Read this here, because we're going to overwrite NextInPool
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// when we toss 'cur' into the appropriate queue.
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AttributeList *next = cur->NextInPool;
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size_t size = cur->allocated_size();
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size_t freeListIndex = getFreeListIndexForSize(size);
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// Expand FreeLists to the appropriate size, if required.
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if (freeListIndex >= FreeLists.size())
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FreeLists.resize(freeListIndex+1);
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// Add 'cur' to the appropriate free-list.
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cur->NextInPool = FreeLists[freeListIndex];
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FreeLists[freeListIndex] = cur;
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cur = next;
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} while (cur);
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}
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void AttributePool::takePool(AttributeList *pool) {
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assert(pool);
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// Fast path: this pool is empty.
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if (!Head) {
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Head = pool;
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return;
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}
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// Reverse the pool onto the current head. This optimizes for the
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// pattern of pulling a lot of pools into a single pool.
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do {
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AttributeList *next = pool->NextInPool;
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pool->NextInPool = Head;
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Head = pool;
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pool = next;
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} while (pool);
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}
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#include "clang/Sema/AttrParsedAttrKinds.inc"
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AttributeList::Kind AttributeList::getKind(const IdentifierInfo *Name,
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const IdentifierInfo *ScopeName,
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Syntax SyntaxUsed) {
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StringRef AttrName = Name->getName();
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SmallString<64> FullName;
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if (ScopeName)
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FullName += ScopeName->getName();
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// Normalize the attribute name, __foo__ becomes foo. This is only allowable
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// for GNU attributes.
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bool IsGNU = SyntaxUsed == AS_GNU || (SyntaxUsed == AS_CXX11 &&
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FullName == "gnu");
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if (IsGNU && AttrName.size() >= 4 && AttrName.startswith("__") &&
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AttrName.endswith("__"))
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AttrName = AttrName.slice(2, AttrName.size() - 2);
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// Ensure that in the case of C++11 attributes, we look for '::foo' if it is
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// unscoped.
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if (ScopeName || SyntaxUsed == AS_CXX11)
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FullName += "::";
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FullName += AttrName;
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return ::getAttrKind(FullName, SyntaxUsed);
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}
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unsigned AttributeList::getAttributeSpellingListIndex() const {
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// Both variables will be used in tablegen generated
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// attribute spell list index matching code.
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StringRef Name = AttrName->getName();
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StringRef Scope = ScopeName ? ScopeName->getName() : "";
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#include "clang/Sema/AttrSpellingListIndex.inc"
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}
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struct ParsedAttrInfo {
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unsigned NumArgs : 4;
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unsigned OptArgs : 4;
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unsigned HasCustomParsing : 1;
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unsigned IsTargetSpecific : 1;
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unsigned IsType : 1;
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unsigned IsKnownToGCC : 1;
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bool (*DiagAppertainsToDecl)(Sema &S, const AttributeList &Attr,
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const Decl *);
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bool (*DiagLangOpts)(Sema &S, const AttributeList &Attr);
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bool (*ExistsInTarget)(const llvm::Triple &T);
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unsigned (*SpellingIndexToSemanticSpelling)(const AttributeList &Attr);
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};
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namespace {
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#include "clang/Sema/AttrParsedAttrImpl.inc"
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}
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static const ParsedAttrInfo &getInfo(const AttributeList &A) {
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return AttrInfoMap[A.getKind()];
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}
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unsigned AttributeList::getMinArgs() const {
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return getInfo(*this).NumArgs;
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}
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unsigned AttributeList::getMaxArgs() const {
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return getMinArgs() + getInfo(*this).OptArgs;
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}
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bool AttributeList::hasCustomParsing() const {
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return getInfo(*this).HasCustomParsing;
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}
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bool AttributeList::diagnoseAppertainsTo(Sema &S, const Decl *D) const {
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return getInfo(*this).DiagAppertainsToDecl(S, *this, D);
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}
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bool AttributeList::diagnoseLangOpts(Sema &S) const {
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return getInfo(*this).DiagLangOpts(S, *this);
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}
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bool AttributeList::isTargetSpecificAttr() const {
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return getInfo(*this).IsTargetSpecific;
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}
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bool AttributeList::isTypeAttr() const {
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return getInfo(*this).IsType;
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}
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bool AttributeList::existsInTarget(const llvm::Triple &T) const {
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return getInfo(*this).ExistsInTarget(T);
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}
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bool AttributeList::isKnownToGCC() const {
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return getInfo(*this).IsKnownToGCC;
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}
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unsigned AttributeList::getSemanticSpelling() const {
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return getInfo(*this).SpellingIndexToSemanticSpelling(*this);
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}
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bool AttributeList::hasVariadicArg() const {
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// If the attribute has the maximum number of optional arguments, we will
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// claim that as being variadic. If we someday get an attribute that
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// legitimately bumps up against that maximum, we can use another bit to track
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// whether it's truly variadic or not.
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return getInfo(*this).OptArgs == 15;
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}
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