forked from OSchip/llvm-project
698 lines
25 KiB
C++
698 lines
25 KiB
C++
//===--- SemanticHighlighting.cpp - ------------------------- ---*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "SemanticHighlighting.h"
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#include "FindTarget.h"
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#include "ParsedAST.h"
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#include "Protocol.h"
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#include "SourceCode.h"
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#include "support/Logger.h"
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#include "clang/AST/ASTContext.h"
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#include "clang/AST/Decl.h"
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#include "clang/AST/DeclCXX.h"
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#include "clang/AST/DeclarationName.h"
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#include "clang/AST/ExprCXX.h"
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#include "clang/AST/RecursiveASTVisitor.h"
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#include "clang/AST/Type.h"
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#include "clang/AST/TypeLoc.h"
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#include "clang/Basic/LangOptions.h"
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#include "clang/Basic/SourceLocation.h"
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#include "clang/Basic/SourceManager.h"
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#include "clang/Tooling/Syntax/Tokens.h"
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#include "llvm/ADT/None.h"
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#include "llvm/ADT/Optional.h"
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#include "llvm/ADT/STLExtras.h"
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#include "llvm/Support/Base64.h"
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#include "llvm/Support/Casting.h"
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#include <algorithm>
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namespace clang {
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namespace clangd {
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namespace {
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/// Some names are not written in the source code and cannot be highlighted,
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/// e.g. anonymous classes. This function detects those cases.
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bool canHighlightName(DeclarationName Name) {
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if (Name.getNameKind() == DeclarationName::CXXConstructorName ||
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Name.getNameKind() == DeclarationName::CXXUsingDirective)
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return true;
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auto *II = Name.getAsIdentifierInfo();
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return II && !II->getName().empty();
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}
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llvm::Optional<HighlightingKind> kindForType(const Type *TP);
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llvm::Optional<HighlightingKind> kindForDecl(const NamedDecl *D) {
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if (auto *USD = dyn_cast<UsingShadowDecl>(D)) {
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if (auto *Target = USD->getTargetDecl())
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D = Target;
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}
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if (auto *TD = dyn_cast<TemplateDecl>(D)) {
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if (auto *Templated = TD->getTemplatedDecl())
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D = Templated;
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}
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if (auto *TD = dyn_cast<TypedefNameDecl>(D)) {
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// We try to highlight typedefs as their underlying type.
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if (auto K = kindForType(TD->getUnderlyingType().getTypePtrOrNull()))
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return K;
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// And fallback to a generic kind if this fails.
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return HighlightingKind::Typedef;
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}
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// We highlight class decls, constructor decls and destructor decls as
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// `Class` type. The destructor decls are handled in `VisitTagTypeLoc` (we
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// will visit a TypeLoc where the underlying Type is a CXXRecordDecl).
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if (auto *RD = llvm::dyn_cast<RecordDecl>(D)) {
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// We don't want to highlight lambdas like classes.
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if (RD->isLambda())
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return llvm::None;
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return HighlightingKind::Class;
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}
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if (isa<ClassTemplateDecl>(D) || isa<RecordDecl>(D) ||
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isa<CXXConstructorDecl>(D))
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return HighlightingKind::Class;
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if (auto *MD = dyn_cast<CXXMethodDecl>(D))
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return MD->isStatic() ? HighlightingKind::StaticMethod
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: HighlightingKind::Method;
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if (isa<FieldDecl>(D))
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return HighlightingKind::Field;
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if (isa<EnumDecl>(D))
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return HighlightingKind::Enum;
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if (isa<EnumConstantDecl>(D))
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return HighlightingKind::EnumConstant;
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if (isa<ParmVarDecl>(D))
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return HighlightingKind::Parameter;
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if (auto *VD = dyn_cast<VarDecl>(D))
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return VD->isStaticDataMember()
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? HighlightingKind::StaticField
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: VD->isLocalVarDecl() ? HighlightingKind::LocalVariable
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: HighlightingKind::Variable;
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if (const auto *BD = dyn_cast<BindingDecl>(D))
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return BD->getDeclContext()->isFunctionOrMethod()
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? HighlightingKind::LocalVariable
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: HighlightingKind::Variable;
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if (isa<FunctionDecl>(D))
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return HighlightingKind::Function;
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if (isa<NamespaceDecl>(D) || isa<NamespaceAliasDecl>(D) ||
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isa<UsingDirectiveDecl>(D))
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return HighlightingKind::Namespace;
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if (isa<TemplateTemplateParmDecl>(D) || isa<TemplateTypeParmDecl>(D) ||
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isa<NonTypeTemplateParmDecl>(D))
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return HighlightingKind::TemplateParameter;
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if (isa<ConceptDecl>(D))
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return HighlightingKind::Concept;
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return llvm::None;
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}
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llvm::Optional<HighlightingKind> kindForType(const Type *TP) {
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if (!TP)
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return llvm::None;
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if (TP->isBuiltinType()) // Builtins are special, they do not have decls.
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return HighlightingKind::Primitive;
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if (auto *TD = dyn_cast<TemplateTypeParmType>(TP))
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return kindForDecl(TD->getDecl());
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if (auto *TD = TP->getAsTagDecl())
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return kindForDecl(TD);
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return llvm::None;
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}
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llvm::Optional<HighlightingKind> kindForReference(const ReferenceLoc &R) {
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llvm::Optional<HighlightingKind> Result;
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for (const NamedDecl *Decl : R.Targets) {
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if (!canHighlightName(Decl->getDeclName()))
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return llvm::None;
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auto Kind = kindForDecl(Decl);
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if (!Kind || (Result && Kind != Result))
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return llvm::None;
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Result = Kind;
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}
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return Result;
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}
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// For a macro usage `DUMP(foo)`, we want:
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// - DUMP --> "macro"
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// - foo --> "variable".
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SourceLocation getHighlightableSpellingToken(SourceLocation L,
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const SourceManager &SM) {
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if (L.isFileID())
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return SM.isWrittenInMainFile(L) ? L : SourceLocation{};
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// Tokens expanded from the macro body contribute no highlightings.
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if (!SM.isMacroArgExpansion(L))
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return {};
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// Tokens expanded from macro args are potentially highlightable.
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return getHighlightableSpellingToken(SM.getImmediateSpellingLoc(L), SM);
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}
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unsigned evaluateHighlightPriority(HighlightingKind Kind) {
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enum HighlightPriority { Dependent = 0, Resolved = 1 };
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return Kind == HighlightingKind::DependentType ||
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Kind == HighlightingKind::DependentName
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? Dependent
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: Resolved;
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}
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// Sometimes we get conflicts between findExplicitReferences() returning
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// a heuristic result for a dependent name (e.g. Method) and
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// CollectExtraHighlighting returning a fallback dependent highlighting (e.g.
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// DependentName). In such cases, resolve the conflict in favour of the
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// resolved (non-dependent) highlighting.
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// With macros we can get other conflicts (if a spelled token has multiple
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// expansions with different token types) which we can't usefully resolve.
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llvm::Optional<HighlightingToken>
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resolveConflict(ArrayRef<HighlightingToken> Tokens) {
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if (Tokens.size() == 1)
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return Tokens[0];
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if (Tokens.size() != 2)
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return llvm::None;
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unsigned Priority1 = evaluateHighlightPriority(Tokens[0].Kind);
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unsigned Priority2 = evaluateHighlightPriority(Tokens[1].Kind);
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if (Priority1 == Priority2)
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return llvm::None;
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return Priority1 > Priority2 ? Tokens[0] : Tokens[1];
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}
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/// Consumes source locations and maps them to text ranges for highlightings.
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class HighlightingsBuilder {
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public:
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HighlightingsBuilder(const ParsedAST &AST)
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: TB(AST.getTokens()), SourceMgr(AST.getSourceManager()),
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LangOpts(AST.getLangOpts()) {}
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void addToken(HighlightingToken T) { Tokens.push_back(T); }
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void addToken(SourceLocation Loc, HighlightingKind Kind) {
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Loc = getHighlightableSpellingToken(Loc, SourceMgr);
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if (Loc.isInvalid())
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return;
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const auto *Tok = TB.spelledTokenAt(Loc);
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assert(Tok);
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auto Range = halfOpenToRange(SourceMgr,
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Tok->range(SourceMgr).toCharRange(SourceMgr));
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Tokens.push_back(HighlightingToken{Kind, std::move(Range)});
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}
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std::vector<HighlightingToken> collect(ParsedAST &AST) && {
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// Initializer lists can give duplicates of tokens, therefore all tokens
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// must be deduplicated.
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llvm::sort(Tokens);
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auto Last = std::unique(Tokens.begin(), Tokens.end());
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Tokens.erase(Last, Tokens.end());
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// Macros can give tokens that have the same source range but conflicting
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// kinds. In this case all tokens sharing this source range should be
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// removed.
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std::vector<HighlightingToken> NonConflicting;
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NonConflicting.reserve(Tokens.size());
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for (ArrayRef<HighlightingToken> TokRef = Tokens; !TokRef.empty();) {
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ArrayRef<HighlightingToken> Conflicting =
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TokRef.take_while([&](const HighlightingToken &T) {
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// TokRef is guaranteed at least one element here because otherwise
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// this predicate would never fire.
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return T.R == TokRef.front().R;
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});
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if (auto Resolved = resolveConflict(Conflicting))
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NonConflicting.push_back(*Resolved);
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// TokRef[Conflicting.size()] is the next token with a different range (or
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// the end of the Tokens).
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TokRef = TokRef.drop_front(Conflicting.size());
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}
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const auto &SM = AST.getSourceManager();
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StringRef MainCode = SM.getBuffer(SM.getMainFileID())->getBuffer();
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// Merge token stream with "inactive line" markers.
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std::vector<HighlightingToken> WithInactiveLines;
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auto SortedSkippedRanges = AST.getMacros().SkippedRanges;
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llvm::sort(SortedSkippedRanges);
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auto It = NonConflicting.begin();
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for (const Range &R : SortedSkippedRanges) {
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// Create one token for each line in the skipped range, so it works
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// with line-based diffing.
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assert(R.start.line <= R.end.line);
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for (int Line = R.start.line; Line <= R.end.line; ++Line) {
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// Copy tokens before the inactive line
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for (; It != NonConflicting.end() && It->R.start.line < Line; ++It)
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WithInactiveLines.push_back(std::move(*It));
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// Add a token for the inactive line itself.
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auto StartOfLine = positionToOffset(MainCode, Position{Line, 0});
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if (StartOfLine) {
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StringRef LineText =
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MainCode.drop_front(*StartOfLine).take_until([](char C) {
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return C == '\n';
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});
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WithInactiveLines.push_back(
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{HighlightingKind::InactiveCode,
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{Position{Line, 0},
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Position{Line, static_cast<int>(lspLength(LineText))}}});
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} else {
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elog("Failed to convert position to offset: {0}",
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StartOfLine.takeError());
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}
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// Skip any other tokens on the inactive line. e.g.
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// `#ifndef Foo` is considered as part of an inactive region when Foo is
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// defined, and there is a Foo macro token.
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// FIXME: we should reduce the scope of the inactive region to not
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// include the directive itself.
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while (It != NonConflicting.end() && It->R.start.line == Line)
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++It;
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}
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}
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// Copy tokens after the last inactive line
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for (; It != NonConflicting.end(); ++It)
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WithInactiveLines.push_back(std::move(*It));
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return WithInactiveLines;
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}
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private:
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const syntax::TokenBuffer &TB;
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const SourceManager &SourceMgr;
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const LangOptions &LangOpts;
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std::vector<HighlightingToken> Tokens;
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};
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/// Produces highlightings, which are not captured by findExplicitReferences,
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/// e.g. highlights dependent names and 'auto' as the underlying type.
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class CollectExtraHighlightings
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: public RecursiveASTVisitor<CollectExtraHighlightings> {
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public:
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CollectExtraHighlightings(HighlightingsBuilder &H) : H(H) {}
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bool VisitDecltypeTypeLoc(DecltypeTypeLoc L) {
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if (auto K = kindForType(L.getTypePtr()))
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H.addToken(L.getBeginLoc(), *K);
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return true;
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}
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bool VisitDeclaratorDecl(DeclaratorDecl *D) {
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auto *AT = D->getType()->getContainedAutoType();
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if (!AT)
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return true;
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if (auto K = kindForType(AT->getDeducedType().getTypePtrOrNull()))
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H.addToken(D->getTypeSpecStartLoc(), *K);
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return true;
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}
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bool VisitOverloadExpr(OverloadExpr *E) {
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if (!E->decls().empty())
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return true; // handled by findExplicitReferences.
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H.addToken(E->getNameLoc(), HighlightingKind::DependentName);
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return true;
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}
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bool VisitCXXDependentScopeMemberExpr(CXXDependentScopeMemberExpr *E) {
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H.addToken(E->getMemberNameInfo().getLoc(),
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HighlightingKind::DependentName);
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return true;
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}
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bool VisitDependentScopeDeclRefExpr(DependentScopeDeclRefExpr *E) {
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H.addToken(E->getNameInfo().getLoc(), HighlightingKind::DependentName);
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return true;
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}
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bool VisitDependentNameTypeLoc(DependentNameTypeLoc L) {
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H.addToken(L.getNameLoc(), HighlightingKind::DependentType);
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return true;
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}
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bool VisitDependentTemplateSpecializationTypeLoc(
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DependentTemplateSpecializationTypeLoc L) {
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H.addToken(L.getTemplateNameLoc(), HighlightingKind::DependentType);
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return true;
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}
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bool TraverseTemplateArgumentLoc(TemplateArgumentLoc L) {
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switch (L.getArgument().getKind()) {
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case TemplateArgument::Template:
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case TemplateArgument::TemplateExpansion:
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H.addToken(L.getTemplateNameLoc(), HighlightingKind::DependentType);
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break;
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default:
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break;
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}
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return RecursiveASTVisitor::TraverseTemplateArgumentLoc(L);
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}
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// findExplicitReferences will walk nested-name-specifiers and
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// find anything that can be resolved to a Decl. However, non-leaf
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// components of nested-name-specifiers which are dependent names
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// (kind "Identifier") cannot be resolved to a decl, so we visit
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// them here.
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bool TraverseNestedNameSpecifierLoc(NestedNameSpecifierLoc Q) {
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if (NestedNameSpecifier *NNS = Q.getNestedNameSpecifier()) {
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if (NNS->getKind() == NestedNameSpecifier::Identifier)
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H.addToken(Q.getLocalBeginLoc(), HighlightingKind::DependentType);
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}
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return RecursiveASTVisitor::TraverseNestedNameSpecifierLoc(Q);
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}
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private:
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HighlightingsBuilder &H;
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};
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void write32be(uint32_t I, llvm::raw_ostream &OS) {
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std::array<char, 4> Buf;
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llvm::support::endian::write32be(Buf.data(), I);
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OS.write(Buf.data(), Buf.size());
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}
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void write16be(uint16_t I, llvm::raw_ostream &OS) {
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std::array<char, 2> Buf;
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llvm::support::endian::write16be(Buf.data(), I);
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OS.write(Buf.data(), Buf.size());
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}
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// Get the highlightings on \c Line where the first entry of line is at \c
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// StartLineIt. If it is not at \c StartLineIt an empty vector is returned.
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ArrayRef<HighlightingToken>
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takeLine(ArrayRef<HighlightingToken> AllTokens,
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ArrayRef<HighlightingToken>::iterator StartLineIt, int Line) {
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return ArrayRef<HighlightingToken>(StartLineIt, AllTokens.end())
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.take_while([Line](const HighlightingToken &Token) {
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return Token.R.start.line == Line;
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});
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}
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} // namespace
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std::vector<HighlightingToken> getSemanticHighlightings(ParsedAST &AST) {
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auto &C = AST.getASTContext();
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// Add highlightings for AST nodes.
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HighlightingsBuilder Builder(AST);
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// Highlight 'decltype' and 'auto' as their underlying types.
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CollectExtraHighlightings(Builder).TraverseAST(C);
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// Highlight all decls and references coming from the AST.
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findExplicitReferences(C, [&](ReferenceLoc R) {
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if (auto Kind = kindForReference(R))
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Builder.addToken(R.NameLoc, *Kind);
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});
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// Add highlightings for macro references.
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for (const auto &SIDToRefs : AST.getMacros().MacroRefs) {
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for (const auto &M : SIDToRefs.second)
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Builder.addToken({HighlightingKind::Macro, M});
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}
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for (const auto &M : AST.getMacros().UnknownMacros)
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Builder.addToken({HighlightingKind::Macro, M});
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return std::move(Builder).collect(AST);
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}
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llvm::raw_ostream &operator<<(llvm::raw_ostream &OS, HighlightingKind K) {
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switch (K) {
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case HighlightingKind::Variable:
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return OS << "Variable";
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case HighlightingKind::LocalVariable:
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return OS << "LocalVariable";
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case HighlightingKind::Parameter:
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return OS << "Parameter";
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case HighlightingKind::Function:
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return OS << "Function";
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case HighlightingKind::Method:
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return OS << "Method";
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case HighlightingKind::StaticMethod:
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return OS << "StaticMethod";
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case HighlightingKind::Field:
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return OS << "Field";
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case HighlightingKind::StaticField:
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return OS << "StaticField";
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case HighlightingKind::Class:
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return OS << "Class";
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case HighlightingKind::Enum:
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return OS << "Enum";
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case HighlightingKind::EnumConstant:
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return OS << "EnumConstant";
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case HighlightingKind::Typedef:
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return OS << "Typedef";
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case HighlightingKind::DependentType:
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return OS << "DependentType";
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case HighlightingKind::DependentName:
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return OS << "DependentName";
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case HighlightingKind::Namespace:
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return OS << "Namespace";
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case HighlightingKind::TemplateParameter:
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return OS << "TemplateParameter";
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case HighlightingKind::Concept:
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return OS << "Concept";
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case HighlightingKind::Primitive:
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return OS << "Primitive";
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case HighlightingKind::Macro:
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return OS << "Macro";
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case HighlightingKind::InactiveCode:
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return OS << "InactiveCode";
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}
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llvm_unreachable("invalid HighlightingKind");
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}
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std::vector<LineHighlightings>
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diffHighlightings(ArrayRef<HighlightingToken> New,
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ArrayRef<HighlightingToken> Old) {
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assert(std::is_sorted(New.begin(), New.end()) &&
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"New must be a sorted vector");
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assert(std::is_sorted(Old.begin(), Old.end()) &&
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"Old must be a sorted vector");
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// FIXME: There's an edge case when tokens span multiple lines. If the first
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// token on the line started on a line above the current one and the rest of
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// the line is the equal to the previous one than we will remove all
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// highlights but the ones for the token spanning multiple lines. This means
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// that when we get into the LSP layer the only highlights that will be
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// visible are the ones for the token spanning multiple lines.
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// Example:
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// EndOfMultilineToken Token Token Token
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// If "Token Token Token" don't differ from previously the line is
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// incorrectly removed. Suggestion to fix is to separate any multiline tokens
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// into one token for every line it covers. This requires reading from the
|
|
// file buffer to figure out the length of each line though.
|
|
std::vector<LineHighlightings> DiffedLines;
|
|
// ArrayRefs to the current line in the highlightings.
|
|
ArrayRef<HighlightingToken> NewLine(New.begin(),
|
|
/*length*/ static_cast<size_t>(0));
|
|
ArrayRef<HighlightingToken> OldLine(Old.begin(),
|
|
/*length*/ static_cast<size_t>(0));
|
|
auto NewEnd = New.end();
|
|
auto OldEnd = Old.end();
|
|
auto NextLineNumber = [&]() {
|
|
int NextNew = NewLine.end() != NewEnd ? NewLine.end()->R.start.line
|
|
: std::numeric_limits<int>::max();
|
|
int NextOld = OldLine.end() != OldEnd ? OldLine.end()->R.start.line
|
|
: std::numeric_limits<int>::max();
|
|
return std::min(NextNew, NextOld);
|
|
};
|
|
|
|
for (int LineNumber = 0; NewLine.end() < NewEnd || OldLine.end() < OldEnd;
|
|
LineNumber = NextLineNumber()) {
|
|
NewLine = takeLine(New, NewLine.end(), LineNumber);
|
|
OldLine = takeLine(Old, OldLine.end(), LineNumber);
|
|
if (NewLine != OldLine) {
|
|
DiffedLines.push_back({LineNumber, NewLine, /*IsInactive=*/false});
|
|
|
|
// Turn a HighlightingKind::InactiveCode token into the IsInactive flag.
|
|
auto &AddedLine = DiffedLines.back();
|
|
llvm::erase_if(AddedLine.Tokens, [&](const HighlightingToken &T) {
|
|
if (T.Kind == HighlightingKind::InactiveCode) {
|
|
AddedLine.IsInactive = true;
|
|
return true;
|
|
}
|
|
return false;
|
|
});
|
|
}
|
|
}
|
|
|
|
return DiffedLines;
|
|
}
|
|
|
|
bool operator==(const HighlightingToken &L, const HighlightingToken &R) {
|
|
return std::tie(L.R, L.Kind) == std::tie(R.R, R.Kind);
|
|
}
|
|
bool operator<(const HighlightingToken &L, const HighlightingToken &R) {
|
|
return std::tie(L.R, L.Kind) < std::tie(R.R, R.Kind);
|
|
}
|
|
bool operator==(const LineHighlightings &L, const LineHighlightings &R) {
|
|
return std::tie(L.Line, L.Tokens) == std::tie(R.Line, R.Tokens);
|
|
}
|
|
|
|
std::vector<SemanticToken>
|
|
toSemanticTokens(llvm::ArrayRef<HighlightingToken> Tokens) {
|
|
assert(std::is_sorted(Tokens.begin(), Tokens.end()));
|
|
std::vector<SemanticToken> Result;
|
|
const HighlightingToken *Last = nullptr;
|
|
for (const HighlightingToken &Tok : Tokens) {
|
|
Result.emplace_back();
|
|
SemanticToken &Out = Result.back();
|
|
// deltaStart/deltaLine are relative if possible.
|
|
if (Last) {
|
|
assert(Tok.R.start.line >= Last->R.start.line);
|
|
Out.deltaLine = Tok.R.start.line - Last->R.start.line;
|
|
if (Out.deltaLine == 0) {
|
|
assert(Tok.R.start.character >= Last->R.start.character);
|
|
Out.deltaStart = Tok.R.start.character - Last->R.start.character;
|
|
} else {
|
|
Out.deltaStart = Tok.R.start.character;
|
|
}
|
|
} else {
|
|
Out.deltaLine = Tok.R.start.line;
|
|
Out.deltaStart = Tok.R.start.character;
|
|
}
|
|
assert(Tok.R.end.line == Tok.R.start.line);
|
|
Out.length = Tok.R.end.character - Tok.R.start.character;
|
|
Out.tokenType = static_cast<unsigned>(Tok.Kind);
|
|
|
|
Last = &Tok;
|
|
}
|
|
return Result;
|
|
}
|
|
llvm::StringRef toSemanticTokenType(HighlightingKind Kind) {
|
|
switch (Kind) {
|
|
case HighlightingKind::Variable:
|
|
case HighlightingKind::LocalVariable:
|
|
case HighlightingKind::StaticField:
|
|
return "variable";
|
|
case HighlightingKind::Parameter:
|
|
return "parameter";
|
|
case HighlightingKind::Function:
|
|
return "function";
|
|
case HighlightingKind::Method:
|
|
return "member";
|
|
case HighlightingKind::StaticMethod:
|
|
// FIXME: better function/member with static modifier?
|
|
return "function";
|
|
case HighlightingKind::Field:
|
|
return "member";
|
|
case HighlightingKind::Class:
|
|
return "class";
|
|
case HighlightingKind::Enum:
|
|
return "enum";
|
|
case HighlightingKind::EnumConstant:
|
|
return "enumConstant"; // nonstandard
|
|
case HighlightingKind::Typedef:
|
|
return "type";
|
|
case HighlightingKind::DependentType:
|
|
return "dependent"; // nonstandard
|
|
case HighlightingKind::DependentName:
|
|
return "dependent"; // nonstandard
|
|
case HighlightingKind::Namespace:
|
|
return "namespace";
|
|
case HighlightingKind::TemplateParameter:
|
|
return "typeParameter";
|
|
case HighlightingKind::Concept:
|
|
return "concept"; // nonstandard
|
|
case HighlightingKind::Primitive:
|
|
return "type";
|
|
case HighlightingKind::Macro:
|
|
return "macro";
|
|
case HighlightingKind::InactiveCode:
|
|
return "comment";
|
|
}
|
|
llvm_unreachable("unhandled HighlightingKind");
|
|
}
|
|
|
|
std::vector<TheiaSemanticHighlightingInformation>
|
|
toTheiaSemanticHighlightingInformation(
|
|
llvm::ArrayRef<LineHighlightings> Tokens) {
|
|
if (Tokens.size() == 0)
|
|
return {};
|
|
|
|
// FIXME: Tokens might be multiple lines long (block comments) in this case
|
|
// this needs to add multiple lines for those tokens.
|
|
std::vector<TheiaSemanticHighlightingInformation> Lines;
|
|
Lines.reserve(Tokens.size());
|
|
for (const auto &Line : Tokens) {
|
|
llvm::SmallVector<char, 128> LineByteTokens;
|
|
llvm::raw_svector_ostream OS(LineByteTokens);
|
|
for (const auto &Token : Line.Tokens) {
|
|
// Writes the token to LineByteTokens in the byte format specified by the
|
|
// LSP proposal. Described below.
|
|
// |<---- 4 bytes ---->|<-- 2 bytes -->|<--- 2 bytes -->|
|
|
// | character | length | index |
|
|
|
|
write32be(Token.R.start.character, OS);
|
|
write16be(Token.R.end.character - Token.R.start.character, OS);
|
|
write16be(static_cast<int>(Token.Kind), OS);
|
|
}
|
|
|
|
Lines.push_back({Line.Line, encodeBase64(LineByteTokens), Line.IsInactive});
|
|
}
|
|
|
|
return Lines;
|
|
}
|
|
|
|
llvm::StringRef toTextMateScope(HighlightingKind Kind) {
|
|
// FIXME: Add scopes for C and Objective C.
|
|
switch (Kind) {
|
|
case HighlightingKind::Function:
|
|
return "entity.name.function.cpp";
|
|
case HighlightingKind::Method:
|
|
return "entity.name.function.method.cpp";
|
|
case HighlightingKind::StaticMethod:
|
|
return "entity.name.function.method.static.cpp";
|
|
case HighlightingKind::Variable:
|
|
return "variable.other.cpp";
|
|
case HighlightingKind::LocalVariable:
|
|
return "variable.other.local.cpp";
|
|
case HighlightingKind::Parameter:
|
|
return "variable.parameter.cpp";
|
|
case HighlightingKind::Field:
|
|
return "variable.other.field.cpp";
|
|
case HighlightingKind::StaticField:
|
|
return "variable.other.field.static.cpp";
|
|
case HighlightingKind::Class:
|
|
return "entity.name.type.class.cpp";
|
|
case HighlightingKind::Enum:
|
|
return "entity.name.type.enum.cpp";
|
|
case HighlightingKind::EnumConstant:
|
|
return "variable.other.enummember.cpp";
|
|
case HighlightingKind::Typedef:
|
|
return "entity.name.type.typedef.cpp";
|
|
case HighlightingKind::DependentType:
|
|
return "entity.name.type.dependent.cpp";
|
|
case HighlightingKind::DependentName:
|
|
return "entity.name.other.dependent.cpp";
|
|
case HighlightingKind::Namespace:
|
|
return "entity.name.namespace.cpp";
|
|
case HighlightingKind::TemplateParameter:
|
|
return "entity.name.type.template.cpp";
|
|
case HighlightingKind::Concept:
|
|
return "entity.name.type.concept.cpp";
|
|
case HighlightingKind::Primitive:
|
|
return "storage.type.primitive.cpp";
|
|
case HighlightingKind::Macro:
|
|
return "entity.name.function.preprocessor.cpp";
|
|
case HighlightingKind::InactiveCode:
|
|
return "meta.disabled";
|
|
}
|
|
llvm_unreachable("unhandled HighlightingKind");
|
|
}
|
|
|
|
std::vector<SemanticTokensEdit>
|
|
diffTokens(llvm::ArrayRef<SemanticToken> Old,
|
|
llvm::ArrayRef<SemanticToken> New) {
|
|
// For now, just replace everything from the first-last modification.
|
|
// FIXME: use a real diff instead, this is bad with include-insertion.
|
|
|
|
unsigned Offset = 0;
|
|
while (!Old.empty() && !New.empty() && Old.front() == New.front()) {
|
|
++Offset;
|
|
Old = Old.drop_front();
|
|
New = New.drop_front();
|
|
}
|
|
while (!Old.empty() && !New.empty() && Old.back() == New.back()) {
|
|
Old = Old.drop_back();
|
|
New = New.drop_back();
|
|
}
|
|
|
|
if (Old.empty() && New.empty())
|
|
return {};
|
|
SemanticTokensEdit Edit;
|
|
Edit.startToken = Offset;
|
|
Edit.deleteTokens = Old.size();
|
|
Edit.tokens = New;
|
|
return {std::move(Edit)};
|
|
}
|
|
|
|
} // namespace clangd
|
|
} // namespace clang
|