//===--- Protocol.cpp - Language Server Protocol Implementation -----------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // This file contains the serialization code for the LSP structs. // //===----------------------------------------------------------------------===// #include "Protocol.h" #include "URI.h" #include "support/Logger.h" #include "clang/Basic/LLVM.h" #include "clang/Index/IndexSymbol.h" #include "llvm/ADT/StringExtras.h" #include "llvm/ADT/StringRef.h" #include "llvm/ADT/StringSwitch.h" #include "llvm/Support/ErrorHandling.h" #include "llvm/Support/JSON.h" #include "llvm/Support/Path.h" #include "llvm/Support/raw_ostream.h" namespace clang { namespace clangd { namespace { // Helper that doesn't treat `null` and absent fields as failures. template bool mapOptOrNull(const llvm::json::Value &Params, llvm::StringLiteral Prop, T &Out, llvm::json::Path P) { auto *O = Params.getAsObject(); assert(O); auto *V = O->get(Prop); // Field is missing or null. if (!V || V->getAsNull()) return true; return fromJSON(*V, Out, P.field(Prop)); } } // namespace char LSPError::ID; URIForFile URIForFile::canonicalize(llvm::StringRef AbsPath, llvm::StringRef TUPath) { assert(llvm::sys::path::is_absolute(AbsPath) && "the path is relative"); auto Resolved = URI::resolvePath(AbsPath, TUPath); if (!Resolved) { elog("URIForFile: failed to resolve path {0} with TU path {1}: " "{2}.\nUsing unresolved path.", AbsPath, TUPath, Resolved.takeError()); return URIForFile(std::string(AbsPath)); } return URIForFile(std::move(*Resolved)); } llvm::Expected URIForFile::fromURI(const URI &U, llvm::StringRef HintPath) { auto Resolved = URI::resolve(U, HintPath); if (!Resolved) return Resolved.takeError(); return URIForFile(std::move(*Resolved)); } bool fromJSON(const llvm::json::Value &E, URIForFile &R, llvm::json::Path P) { if (auto S = E.getAsString()) { auto Parsed = URI::parse(*S); if (!Parsed) { consumeError(Parsed.takeError()); P.report("failed to parse URI"); return false; } if (Parsed->scheme() != "file" && Parsed->scheme() != "test") { P.report("clangd only supports 'file' URI scheme for workspace files"); return false; } // "file" and "test" schemes do not require hint path. auto U = URIForFile::fromURI(*Parsed, /*HintPath=*/""); if (!U) { P.report("unresolvable URI"); consumeError(U.takeError()); return false; } R = std::move(*U); return true; } return false; } llvm::json::Value toJSON(const URIForFile &U) { return U.uri(); } llvm::raw_ostream &operator<<(llvm::raw_ostream &OS, const URIForFile &U) { return OS << U.uri(); } llvm::json::Value toJSON(const TextDocumentIdentifier &R) { return llvm::json::Object{{"uri", R.uri}}; } bool fromJSON(const llvm::json::Value &Params, TextDocumentIdentifier &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("uri", R.uri); } llvm::json::Value toJSON(const VersionedTextDocumentIdentifier &R) { auto Result = toJSON(static_cast(R)); Result.getAsObject()->try_emplace("version", R.version); return Result; } bool fromJSON(const llvm::json::Value &Params, VersionedTextDocumentIdentifier &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return fromJSON(Params, static_cast(R), P) && O && O.map("version", R.version); } bool fromJSON(const llvm::json::Value &Params, Position &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("line", R.line) && O.map("character", R.character); } llvm::json::Value toJSON(const Position &P) { return llvm::json::Object{ {"line", P.line}, {"character", P.character}, }; } llvm::raw_ostream &operator<<(llvm::raw_ostream &OS, const Position &P) { return OS << P.line << ':' << P.character; } bool fromJSON(const llvm::json::Value &Params, Range &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("start", R.start) && O.map("end", R.end); } llvm::json::Value toJSON(const Range &P) { return llvm::json::Object{ {"start", P.start}, {"end", P.end}, }; } llvm::raw_ostream &operator<<(llvm::raw_ostream &OS, const Range &R) { return OS << R.start << '-' << R.end; } llvm::json::Value toJSON(const Location &P) { return llvm::json::Object{ {"uri", P.uri}, {"range", P.range}, }; } llvm::raw_ostream &operator<<(llvm::raw_ostream &OS, const Location &L) { return OS << L.range << '@' << L.uri; } llvm::json::Value toJSON(const ReferenceLocation &P) { llvm::json::Object Result{ {"uri", P.uri}, {"range", P.range}, }; if (P.containerName) Result.insert({"containerName", P.containerName}); return Result; } llvm::raw_ostream &operator<<(llvm::raw_ostream &OS, const ReferenceLocation &L) { return OS << L.range << '@' << L.uri << " (container: " << L.containerName << ")"; } bool fromJSON(const llvm::json::Value &Params, TextDocumentItem &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("uri", R.uri) && O.map("languageId", R.languageId) && O.map("version", R.version) && O.map("text", R.text); } bool fromJSON(const llvm::json::Value &Params, TextEdit &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("range", R.range) && O.map("newText", R.newText) && O.mapOptional("annotationId", R.annotationId); } llvm::json::Value toJSON(const TextEdit &P) { llvm::json::Object Result{ {"range", P.range}, {"newText", P.newText}, }; if (!P.annotationId.empty()) Result["annotationId"] = P.annotationId; return Result; } bool fromJSON(const llvm::json::Value &Params, ChangeAnnotation &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("label", R.label) && O.map("needsConfirmation", R.needsConfirmation) && O.mapOptional("description", R.description); } llvm::json::Value toJSON(const ChangeAnnotation & CA) { llvm::json::Object Result{{"label", CA.label}}; if (CA.needsConfirmation) Result["needsConfirmation"] = *CA.needsConfirmation; if (!CA.description.empty()) Result["description"] = CA.description; return Result; } bool fromJSON(const llvm::json::Value &Params, TextDocumentEdit &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", R.textDocument) && O.map("edits", R.edits); } llvm::json::Value toJSON(const TextDocumentEdit &P) { llvm::json::Object Result{{"textDocument", P.textDocument}, {"edits", P.edits}}; return Result; } llvm::raw_ostream &operator<<(llvm::raw_ostream &OS, const TextEdit &TE) { OS << TE.range << " => \""; llvm::printEscapedString(TE.newText, OS); return OS << '"'; } bool fromJSON(const llvm::json::Value &E, TraceLevel &Out, llvm::json::Path P) { if (auto S = E.getAsString()) { if (*S == "off") { Out = TraceLevel::Off; return true; } if (*S == "messages") { Out = TraceLevel::Messages; return true; } if (*S == "verbose") { Out = TraceLevel::Verbose; return true; } } return false; } bool fromJSON(const llvm::json::Value &E, SymbolKind &Out, llvm::json::Path P) { if (auto T = E.getAsInteger()) { if (*T < static_cast(SymbolKind::File) || *T > static_cast(SymbolKind::TypeParameter)) return false; Out = static_cast(*T); return true; } return false; } bool fromJSON(const llvm::json::Value &E, SymbolKindBitset &Out, llvm::json::Path P) { if (auto *A = E.getAsArray()) { for (size_t I = 0; I < A->size(); ++I) { SymbolKind KindOut; if (fromJSON((*A)[I], KindOut, P.index(I))) Out.set(size_t(KindOut)); } return true; } return false; } SymbolKind adjustKindToCapability(SymbolKind Kind, SymbolKindBitset &SupportedSymbolKinds) { auto KindVal = static_cast(Kind); if (KindVal >= SymbolKindMin && KindVal <= SupportedSymbolKinds.size() && SupportedSymbolKinds[KindVal]) return Kind; switch (Kind) { // Provide some fall backs for common kinds that are close enough. case SymbolKind::Struct: return SymbolKind::Class; case SymbolKind::EnumMember: return SymbolKind::Enum; default: return SymbolKind::String; } } SymbolKind indexSymbolKindToSymbolKind(index::SymbolKind Kind) { switch (Kind) { case index::SymbolKind::Unknown: return SymbolKind::Variable; case index::SymbolKind::Module: return SymbolKind::Module; case index::SymbolKind::Namespace: return SymbolKind::Namespace; case index::SymbolKind::NamespaceAlias: return SymbolKind::Namespace; case index::SymbolKind::Macro: return SymbolKind::String; case index::SymbolKind::Enum: return SymbolKind::Enum; case index::SymbolKind::Struct: return SymbolKind::Struct; case index::SymbolKind::Class: return SymbolKind::Class; case index::SymbolKind::Protocol: return SymbolKind::Interface; case index::SymbolKind::Extension: return SymbolKind::Interface; case index::SymbolKind::Union: return SymbolKind::Class; case index::SymbolKind::TypeAlias: return SymbolKind::Class; case index::SymbolKind::Function: return SymbolKind::Function; case index::SymbolKind::Variable: return SymbolKind::Variable; case index::SymbolKind::Field: return SymbolKind::Field; case index::SymbolKind::EnumConstant: return SymbolKind::EnumMember; case index::SymbolKind::InstanceMethod: case index::SymbolKind::ClassMethod: case index::SymbolKind::StaticMethod: return SymbolKind::Method; case index::SymbolKind::InstanceProperty: case index::SymbolKind::ClassProperty: case index::SymbolKind::StaticProperty: return SymbolKind::Property; case index::SymbolKind::Constructor: case index::SymbolKind::Destructor: return SymbolKind::Constructor; case index::SymbolKind::ConversionFunction: return SymbolKind::Function; case index::SymbolKind::Parameter: case index::SymbolKind::NonTypeTemplateParm: return SymbolKind::Variable; case index::SymbolKind::Using: return SymbolKind::Namespace; case index::SymbolKind::TemplateTemplateParm: case index::SymbolKind::TemplateTypeParm: return SymbolKind::TypeParameter; case index::SymbolKind::Concept: return SymbolKind::Interface; } llvm_unreachable("invalid symbol kind"); } bool fromJSON(const llvm::json::Value &Params, ClientCapabilities &R, llvm::json::Path P) { const llvm::json::Object *O = Params.getAsObject(); if (!O) { P.report("expected object"); return false; } if (auto *TextDocument = O->getObject("textDocument")) { if (auto *SemanticHighlighting = TextDocument->getObject("semanticHighlightingCapabilities")) { if (auto SemanticHighlightingSupport = SemanticHighlighting->getBoolean("semanticHighlighting")) R.TheiaSemanticHighlighting = *SemanticHighlightingSupport; } if (auto *InactiveRegions = TextDocument->getObject("inactiveRegionsCapabilities")) { if (auto InactiveRegionsSupport = InactiveRegions->getBoolean("inactiveRegions")) { R.InactiveRegions = *InactiveRegionsSupport; } } if (TextDocument->getObject("semanticTokens")) R.SemanticTokens = true; if (auto *Diagnostics = TextDocument->getObject("publishDiagnostics")) { if (auto CategorySupport = Diagnostics->getBoolean("categorySupport")) R.DiagnosticCategory = *CategorySupport; if (auto CodeActions = Diagnostics->getBoolean("codeActionsInline")) R.DiagnosticFixes = *CodeActions; if (auto RelatedInfo = Diagnostics->getBoolean("relatedInformation")) R.DiagnosticRelatedInformation = *RelatedInfo; } if (auto *References = TextDocument->getObject("references")) if (auto ContainerSupport = References->getBoolean("container")) R.ReferenceContainer = *ContainerSupport; if (auto *Completion = TextDocument->getObject("completion")) { if (auto *Item = Completion->getObject("completionItem")) { if (auto SnippetSupport = Item->getBoolean("snippetSupport")) R.CompletionSnippets = *SnippetSupport; if (auto LabelDetailsSupport = Item->getBoolean("labelDetailsSupport")) R.CompletionLabelDetail = *LabelDetailsSupport; if (const auto *DocumentationFormat = Item->getArray("documentationFormat")) { for (const auto &Format : *DocumentationFormat) { if (fromJSON(Format, R.CompletionDocumentationFormat, P)) break; } } } if (auto *ItemKind = Completion->getObject("completionItemKind")) { if (auto *ValueSet = ItemKind->get("valueSet")) { R.CompletionItemKinds.emplace(); if (!fromJSON(*ValueSet, *R.CompletionItemKinds, P.field("textDocument") .field("completion") .field("completionItemKind") .field("valueSet"))) return false; } } if (auto EditsNearCursor = Completion->getBoolean("editsNearCursor")) R.CompletionFixes = *EditsNearCursor; } if (auto *CodeAction = TextDocument->getObject("codeAction")) { if (CodeAction->getObject("codeActionLiteralSupport")) R.CodeActionStructure = true; } if (auto *DocumentSymbol = TextDocument->getObject("documentSymbol")) { if (auto HierarchicalSupport = DocumentSymbol->getBoolean("hierarchicalDocumentSymbolSupport")) R.HierarchicalDocumentSymbol = *HierarchicalSupport; } if (auto *Hover = TextDocument->getObject("hover")) { if (auto *ContentFormat = Hover->getArray("contentFormat")) { for (const auto &Format : *ContentFormat) { if (fromJSON(Format, R.HoverContentFormat, P)) break; } } } if (auto *Help = TextDocument->getObject("signatureHelp")) { R.HasSignatureHelp = true; if (auto *Info = Help->getObject("signatureInformation")) { if (auto *Parameter = Info->getObject("parameterInformation")) { if (auto OffsetSupport = Parameter->getBoolean("labelOffsetSupport")) R.OffsetsInSignatureHelp = *OffsetSupport; } if (const auto *DocumentationFormat = Info->getArray("documentationFormat")) { for (const auto &Format : *DocumentationFormat) { if (fromJSON(Format, R.SignatureHelpDocumentationFormat, P)) break; } } } } if (auto *Folding = TextDocument->getObject("foldingRange")) { if (auto LineFolding = Folding->getBoolean("lineFoldingOnly")) R.LineFoldingOnly = *LineFolding; } if (auto *Rename = TextDocument->getObject("rename")) { if (auto RenameSupport = Rename->getBoolean("prepareSupport")) R.RenamePrepareSupport = *RenameSupport; } } if (auto *Workspace = O->getObject("workspace")) { if (auto *Symbol = Workspace->getObject("symbol")) { if (auto *SymbolKind = Symbol->getObject("symbolKind")) { if (auto *ValueSet = SymbolKind->get("valueSet")) { R.WorkspaceSymbolKinds.emplace(); if (!fromJSON(*ValueSet, *R.WorkspaceSymbolKinds, P.field("workspace") .field("symbol") .field("symbolKind") .field("valueSet"))) return false; } } } if (auto *SemanticTokens = Workspace->getObject("semanticTokens")) { if (auto RefreshSupport = SemanticTokens->getBoolean("refreshSupport")) R.SemanticTokenRefreshSupport = *RefreshSupport; } if (auto *WorkspaceEdit = Workspace->getObject("workspaceEdit")) { if (auto DocumentChanges = WorkspaceEdit->getBoolean("documentChanges")) R.DocumentChanges = *DocumentChanges; if (WorkspaceEdit->getObject("changeAnnotationSupport")) { R.ChangeAnnotation = true; } } } if (auto *Window = O->getObject("window")) { if (auto WorkDoneProgress = Window->getBoolean("workDoneProgress")) R.WorkDoneProgress = *WorkDoneProgress; if (auto Implicit = Window->getBoolean("implicitWorkDoneProgressCreate")) R.ImplicitProgressCreation = *Implicit; } if (auto *General = O->getObject("general")) { if (auto *StaleRequestSupport = General->getObject("staleRequestSupport")) { if (auto Cancel = StaleRequestSupport->getBoolean("cancel")) R.CancelsStaleRequests = *Cancel; } } if (auto *OffsetEncoding = O->get("offsetEncoding")) { R.offsetEncoding.emplace(); if (!fromJSON(*OffsetEncoding, *R.offsetEncoding, P.field("offsetEncoding"))) return false; } return true; } bool fromJSON(const llvm::json::Value &Params, InitializeParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); if (!O) return false; // We deliberately don't fail if we can't parse individual fields. // Failing to handle a slightly malformed initialize would be a disaster. O.map("processId", R.processId); O.map("rootUri", R.rootUri); O.map("rootPath", R.rootPath); O.map("capabilities", R.capabilities); if (auto *RawCaps = Params.getAsObject()->getObject("capabilities")) R.rawCapabilities = *RawCaps; O.map("trace", R.trace); O.map("initializationOptions", R.initializationOptions); return true; } llvm::json::Value toJSON(const WorkDoneProgressCreateParams &P) { return llvm::json::Object{{"token", P.token}}; } llvm::json::Value toJSON(const WorkDoneProgressBegin &P) { llvm::json::Object Result{ {"kind", "begin"}, {"title", P.title}, }; if (P.cancellable) Result["cancellable"] = true; if (P.percentage) Result["percentage"] = 0; // FIXME: workaround for older gcc/clang return std::move(Result); } llvm::json::Value toJSON(const WorkDoneProgressReport &P) { llvm::json::Object Result{{"kind", "report"}}; if (P.cancellable) Result["cancellable"] = *P.cancellable; if (P.message) Result["message"] = *P.message; if (P.percentage) Result["percentage"] = *P.percentage; // FIXME: workaround for older gcc/clang return std::move(Result); } llvm::json::Value toJSON(const WorkDoneProgressEnd &P) { llvm::json::Object Result{{"kind", "end"}}; if (P.message) Result["message"] = *P.message; // FIXME: workaround for older gcc/clang return std::move(Result); } llvm::json::Value toJSON(const MessageType &R) { return static_cast(R); } llvm::json::Value toJSON(const ShowMessageParams &R) { return llvm::json::Object{{"type", R.type}, {"message", R.message}}; } bool fromJSON(const llvm::json::Value &Params, DidOpenTextDocumentParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", R.textDocument); } bool fromJSON(const llvm::json::Value &Params, DidCloseTextDocumentParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", R.textDocument); } bool fromJSON(const llvm::json::Value &Params, DidSaveTextDocumentParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", R.textDocument); } bool fromJSON(const llvm::json::Value &Params, DidChangeTextDocumentParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", R.textDocument) && O.map("contentChanges", R.contentChanges) && O.map("wantDiagnostics", R.wantDiagnostics) && mapOptOrNull(Params, "forceRebuild", R.forceRebuild, P); } bool fromJSON(const llvm::json::Value &E, FileChangeType &Out, llvm::json::Path P) { if (auto T = E.getAsInteger()) { if (*T < static_cast(FileChangeType::Created) || *T > static_cast(FileChangeType::Deleted)) return false; Out = static_cast(*T); return true; } return false; } bool fromJSON(const llvm::json::Value &Params, FileEvent &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("uri", R.uri) && O.map("type", R.type); } bool fromJSON(const llvm::json::Value &Params, DidChangeWatchedFilesParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("changes", R.changes); } bool fromJSON(const llvm::json::Value &Params, TextDocumentContentChangeEvent &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("range", R.range) && O.map("rangeLength", R.rangeLength) && O.map("text", R.text); } bool fromJSON(const llvm::json::Value &Params, DocumentRangeFormattingParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", R.textDocument) && O.map("range", R.range); } bool fromJSON(const llvm::json::Value &Params, DocumentOnTypeFormattingParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", R.textDocument) && O.map("position", R.position) && O.map("ch", R.ch); } bool fromJSON(const llvm::json::Value &Params, DocumentFormattingParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", R.textDocument); } bool fromJSON(const llvm::json::Value &Params, DocumentSymbolParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", R.textDocument); } llvm::json::Value toJSON(const DiagnosticRelatedInformation &DRI) { return llvm::json::Object{ {"location", DRI.location}, {"message", DRI.message}, }; } llvm::json::Value toJSON(DiagnosticTag Tag) { return static_cast(Tag); } llvm::json::Value toJSON(const CodeDescription &D) { return llvm::json::Object{{"href", D.href}}; } llvm::json::Value toJSON(const Diagnostic &D) { llvm::json::Object Diag{ {"range", D.range}, {"severity", D.severity}, {"message", D.message}, }; if (D.category) Diag["category"] = *D.category; if (D.codeActions) Diag["codeActions"] = D.codeActions; if (!D.code.empty()) Diag["code"] = D.code; if (D.codeDescription) Diag["codeDescription"] = *D.codeDescription; if (!D.source.empty()) Diag["source"] = D.source; if (D.relatedInformation) Diag["relatedInformation"] = *D.relatedInformation; if (!D.data.empty()) Diag["data"] = llvm::json::Object(D.data); if (!D.tags.empty()) Diag["tags"] = llvm::json::Array{D.tags}; // FIXME: workaround for older gcc/clang return std::move(Diag); } bool fromJSON(const llvm::json::Value &Params, Diagnostic &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); if (!O) return false; if (auto *Data = Params.getAsObject()->getObject("data")) R.data = *Data; return O.map("range", R.range) && O.map("message", R.message) && mapOptOrNull(Params, "severity", R.severity, P) && mapOptOrNull(Params, "category", R.category, P) && mapOptOrNull(Params, "code", R.code, P) && mapOptOrNull(Params, "source", R.source, P); } llvm::json::Value toJSON(const PublishDiagnosticsParams &PDP) { llvm::json::Object Result{ {"uri", PDP.uri}, {"diagnostics", PDP.diagnostics}, }; if (PDP.version) Result["version"] = PDP.version; return std::move(Result); } bool fromJSON(const llvm::json::Value &Params, CodeActionContext &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); if (!O || !O.map("diagnostics", R.diagnostics)) return false; O.map("only", R.only); return true; } llvm::raw_ostream &operator<<(llvm::raw_ostream &OS, const Diagnostic &D) { OS << D.range << " ["; switch (D.severity) { case 1: OS << "error"; break; case 2: OS << "warning"; break; case 3: OS << "note"; break; case 4: OS << "remark"; break; default: OS << "diagnostic"; break; } return OS << '(' << D.severity << "): " << D.message << "]"; } bool fromJSON(const llvm::json::Value &Params, CodeActionParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", R.textDocument) && O.map("range", R.range) && O.map("context", R.context); } bool fromJSON(const llvm::json::Value &Params, WorkspaceEdit &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("changes", R.changes) && O.map("documentChanges", R.documentChanges) && O.mapOptional("changeAnnotations", R.changeAnnotations); } bool fromJSON(const llvm::json::Value &Params, ExecuteCommandParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); if (!O || !O.map("command", R.command)) return false; const auto *Args = Params.getAsObject()->get("arguments"); if (!Args) return true; // Missing args is ok, argument is null. const auto *ArgsArray = Args->getAsArray(); if (!ArgsArray) { P.field("arguments").report("expected array"); return false; } if (ArgsArray->size() > 1) { P.field("arguments").report("Command should have 0 or 1 argument"); return false; } if (ArgsArray->size() == 1) { R.argument = ArgsArray->front(); } return true; } llvm::json::Value toJSON(const SymbolInformation &P) { llvm::json::Object O{ {"name", P.name}, {"kind", static_cast(P.kind)}, {"location", P.location}, {"containerName", P.containerName}, }; if (P.score) O["score"] = *P.score; return std::move(O); } llvm::raw_ostream &operator<<(llvm::raw_ostream &O, const SymbolInformation &SI) { O << SI.containerName << "::" << SI.name << " - " << toJSON(SI); return O; } bool operator==(const SymbolDetails &LHS, const SymbolDetails &RHS) { return LHS.name == RHS.name && LHS.containerName == RHS.containerName && LHS.USR == RHS.USR && LHS.ID == RHS.ID && LHS.declarationRange == RHS.declarationRange && LHS.definitionRange == RHS.definitionRange; } llvm::json::Value toJSON(const SymbolDetails &P) { llvm::json::Object Result{{"name", llvm::json::Value(nullptr)}, {"containerName", llvm::json::Value(nullptr)}, {"usr", llvm::json::Value(nullptr)}, {"id", llvm::json::Value(nullptr)}}; if (!P.name.empty()) Result["name"] = P.name; if (!P.containerName.empty()) Result["containerName"] = P.containerName; if (!P.USR.empty()) Result["usr"] = P.USR; if (P.ID) Result["id"] = P.ID.str(); if (P.declarationRange) Result["declarationRange"] = *P.declarationRange; if (P.definitionRange) Result["definitionRange"] = *P.definitionRange; // FIXME: workaround for older gcc/clang return std::move(Result); } llvm::raw_ostream &operator<<(llvm::raw_ostream &O, const SymbolDetails &S) { if (!S.containerName.empty()) { O << S.containerName; llvm::StringRef ContNameRef; if (!ContNameRef.endswith("::")) { O << " "; } } O << S.name << " - " << toJSON(S); return O; } bool fromJSON(const llvm::json::Value &Params, WorkspaceSymbolParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("query", R.query) && mapOptOrNull(Params, "limit", R.limit, P); } llvm::json::Value toJSON(const Command &C) { auto Cmd = llvm::json::Object{{"title", C.title}, {"command", C.command}}; if (!C.argument.getAsNull()) Cmd["arguments"] = llvm::json::Array{C.argument}; return std::move(Cmd); } const llvm::StringLiteral CodeAction::QUICKFIX_KIND = "quickfix"; const llvm::StringLiteral CodeAction::REFACTOR_KIND = "refactor"; const llvm::StringLiteral CodeAction::INFO_KIND = "info"; llvm::json::Value toJSON(const CodeAction &CA) { auto CodeAction = llvm::json::Object{{"title", CA.title}}; if (CA.kind) CodeAction["kind"] = *CA.kind; if (CA.diagnostics) CodeAction["diagnostics"] = llvm::json::Array(*CA.diagnostics); if (CA.isPreferred) CodeAction["isPreferred"] = true; if (CA.edit) CodeAction["edit"] = *CA.edit; if (CA.command) CodeAction["command"] = *CA.command; return std::move(CodeAction); } llvm::raw_ostream &operator<<(llvm::raw_ostream &O, const DocumentSymbol &S) { return O << S.name << " - " << toJSON(S); } llvm::json::Value toJSON(const DocumentSymbol &S) { llvm::json::Object Result{{"name", S.name}, {"kind", static_cast(S.kind)}, {"range", S.range}, {"selectionRange", S.selectionRange}}; if (!S.detail.empty()) Result["detail"] = S.detail; if (!S.children.empty()) Result["children"] = S.children; if (S.deprecated) Result["deprecated"] = true; // FIXME: workaround for older gcc/clang return std::move(Result); } llvm::json::Value toJSON(const WorkspaceEdit &WE) { llvm::json::Object Result; if (WE.changes) { llvm::json::Object FileChanges; for (auto &Change : *WE.changes) FileChanges[Change.first] = llvm::json::Array(Change.second); Result["changes"] = std::move(FileChanges); } if (WE.documentChanges) Result["documentChanges"] = *WE.documentChanges; if (!WE.changeAnnotations.empty()) { llvm::json::Object ChangeAnnotations; for (auto &Annotation : WE.changeAnnotations) ChangeAnnotations[Annotation.first] = Annotation.second; Result["changeAnnotations"] = std::move(ChangeAnnotations); } return Result; } bool fromJSON(const llvm::json::Value &Params, TweakArgs &A, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("file", A.file) && O.map("selection", A.selection) && O.map("tweakID", A.tweakID); } llvm::json::Value toJSON(const TweakArgs &A) { return llvm::json::Object{ {"tweakID", A.tweakID}, {"selection", A.selection}, {"file", A.file}}; } llvm::json::Value toJSON(const ApplyWorkspaceEditParams &Params) { return llvm::json::Object{{"edit", Params.edit}}; } bool fromJSON(const llvm::json::Value &Response, ApplyWorkspaceEditResponse &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Response, P); return O && O.map("applied", R.applied) && O.map("failureReason", R.failureReason); } bool fromJSON(const llvm::json::Value &Params, TextDocumentPositionParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", R.textDocument) && O.map("position", R.position); } bool fromJSON(const llvm::json::Value &Params, CompletionContext &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); int TriggerKind; if (!O || !O.map("triggerKind", TriggerKind) || !mapOptOrNull(Params, "triggerCharacter", R.triggerCharacter, P)) return false; R.triggerKind = static_cast(TriggerKind); return true; } bool fromJSON(const llvm::json::Value &Params, CompletionParams &R, llvm::json::Path P) { if (!fromJSON(Params, static_cast(R), P) || !mapOptOrNull(Params, "limit", R.limit, P)) return false; if (auto *Context = Params.getAsObject()->get("context")) return fromJSON(*Context, R.context, P.field("context")); return true; } static llvm::StringRef toTextKind(MarkupKind Kind) { switch (Kind) { case MarkupKind::PlainText: return "plaintext"; case MarkupKind::Markdown: return "markdown"; } llvm_unreachable("Invalid MarkupKind"); } bool fromJSON(const llvm::json::Value &V, MarkupKind &K, llvm::json::Path P) { auto Str = V.getAsString(); if (!Str) { P.report("expected string"); return false; } if (*Str == "plaintext") K = MarkupKind::PlainText; else if (*Str == "markdown") K = MarkupKind::Markdown; else { P.report("unknown markup kind"); return false; } return true; } llvm::raw_ostream &operator<<(llvm::raw_ostream &OS, MarkupKind K) { return OS << toTextKind(K); } llvm::json::Value toJSON(const MarkupContent &MC) { if (MC.value.empty()) return nullptr; return llvm::json::Object{ {"kind", toTextKind(MC.kind)}, {"value", MC.value}, }; } llvm::json::Value toJSON(const Hover &H) { llvm::json::Object Result{{"contents", toJSON(H.contents)}}; if (H.range) Result["range"] = toJSON(*H.range); return std::move(Result); } bool fromJSON(const llvm::json::Value &E, CompletionItemKind &Out, llvm::json::Path P) { if (auto T = E.getAsInteger()) { if (*T < static_cast(CompletionItemKind::Text) || *T > static_cast(CompletionItemKind::TypeParameter)) return false; Out = static_cast(*T); return true; } return false; } CompletionItemKind adjustKindToCapability(CompletionItemKind Kind, CompletionItemKindBitset &SupportedCompletionItemKinds) { auto KindVal = static_cast(Kind); if (KindVal >= CompletionItemKindMin && KindVal <= SupportedCompletionItemKinds.size() && SupportedCompletionItemKinds[KindVal]) return Kind; switch (Kind) { // Provide some fall backs for common kinds that are close enough. case CompletionItemKind::Folder: return CompletionItemKind::File; case CompletionItemKind::EnumMember: return CompletionItemKind::Enum; case CompletionItemKind::Struct: return CompletionItemKind::Class; default: return CompletionItemKind::Text; } } bool fromJSON(const llvm::json::Value &E, CompletionItemKindBitset &Out, llvm::json::Path P) { if (auto *A = E.getAsArray()) { for (size_t I = 0; I < A->size(); ++I) { CompletionItemKind KindOut; if (fromJSON((*A)[I], KindOut, P.index(I))) Out.set(size_t(KindOut)); } return true; } return false; } llvm::json::Value toJSON(const CompletionItemLabelDetails &CD) { llvm::json::Object Result; if (!CD.detail.empty()) Result["detail"] = CD.detail; if (!CD.description.empty()) Result["description"] = CD.description; return Result; } void removeCompletionLabelDetails(CompletionItem &C) { if (!C.labelDetails) return; if (!C.labelDetails->detail.empty()) C.label += C.labelDetails->detail; if (!C.labelDetails->description.empty()) C.label = C.labelDetails->description + C.label; C.labelDetails.reset(); } llvm::json::Value toJSON(const CompletionItem &CI) { assert(!CI.label.empty() && "completion item label is required"); llvm::json::Object Result{{"label", CI.label}}; if (CI.kind != CompletionItemKind::Missing) Result["kind"] = static_cast(CI.kind); if (!CI.detail.empty()) Result["detail"] = CI.detail; if (CI.labelDetails) Result["labelDetails"] = *CI.labelDetails; if (CI.documentation) Result["documentation"] = CI.documentation; if (!CI.sortText.empty()) Result["sortText"] = CI.sortText; if (!CI.filterText.empty()) Result["filterText"] = CI.filterText; if (!CI.insertText.empty()) Result["insertText"] = CI.insertText; if (CI.insertTextFormat != InsertTextFormat::Missing) Result["insertTextFormat"] = static_cast(CI.insertTextFormat); if (CI.textEdit) Result["textEdit"] = *CI.textEdit; if (!CI.additionalTextEdits.empty()) Result["additionalTextEdits"] = llvm::json::Array(CI.additionalTextEdits); if (CI.deprecated) Result["deprecated"] = CI.deprecated; Result["score"] = CI.score; return std::move(Result); } llvm::raw_ostream &operator<<(llvm::raw_ostream &O, const CompletionItem &I) { O << I.label << " - " << toJSON(I); return O; } bool operator<(const CompletionItem &L, const CompletionItem &R) { return (L.sortText.empty() ? L.label : L.sortText) < (R.sortText.empty() ? R.label : R.sortText); } llvm::json::Value toJSON(const CompletionList &L) { return llvm::json::Object{ {"isIncomplete", L.isIncomplete}, {"items", llvm::json::Array(L.items)}, }; } llvm::json::Value toJSON(const ParameterInformation &PI) { assert((PI.labelOffsets || !PI.labelString.empty()) && "parameter information label is required"); llvm::json::Object Result; if (PI.labelOffsets) Result["label"] = llvm::json::Array({PI.labelOffsets->first, PI.labelOffsets->second}); else Result["label"] = PI.labelString; if (!PI.documentation.empty()) Result["documentation"] = PI.documentation; return std::move(Result); } llvm::json::Value toJSON(const SignatureInformation &SI) { assert(!SI.label.empty() && "signature information label is required"); llvm::json::Object Result{ {"label", SI.label}, {"parameters", llvm::json::Array(SI.parameters)}, }; if (!SI.documentation.value.empty()) Result["documentation"] = SI.documentation; return std::move(Result); } llvm::raw_ostream &operator<<(llvm::raw_ostream &O, const SignatureInformation &I) { O << I.label << " - " << toJSON(I); return O; } llvm::json::Value toJSON(const SignatureHelp &SH) { assert(SH.activeSignature >= 0 && "Unexpected negative value for number of active signatures."); assert(SH.activeParameter >= 0 && "Unexpected negative value for active parameter index"); return llvm::json::Object{ {"activeSignature", SH.activeSignature}, {"activeParameter", SH.activeParameter}, {"signatures", llvm::json::Array(SH.signatures)}, }; } bool fromJSON(const llvm::json::Value &Params, RenameParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", R.textDocument) && O.map("position", R.position) && O.map("newName", R.newName); } llvm::json::Value toJSON(const DocumentHighlight &DH) { return llvm::json::Object{ {"range", toJSON(DH.range)}, {"kind", static_cast(DH.kind)}, }; } llvm::json::Value toJSON(const FileStatus &FStatus) { return llvm::json::Object{ {"uri", FStatus.uri}, {"state", FStatus.state}, }; } constexpr unsigned SemanticTokenEncodingSize = 5; static llvm::json::Value encodeTokens(llvm::ArrayRef Toks) { llvm::json::Array Result; Result.reserve(SemanticTokenEncodingSize * Toks.size()); for (const auto &Tok : Toks) { Result.push_back(Tok.deltaLine); Result.push_back(Tok.deltaStart); Result.push_back(Tok.length); Result.push_back(Tok.tokenType); Result.push_back(Tok.tokenModifiers); } assert(Result.size() == SemanticTokenEncodingSize * Toks.size()); return std::move(Result); } bool operator==(const SemanticToken &L, const SemanticToken &R) { return std::tie(L.deltaLine, L.deltaStart, L.length, L.tokenType, L.tokenModifiers) == std::tie(R.deltaLine, R.deltaStart, R.length, R.tokenType, R.tokenModifiers); } llvm::json::Value toJSON(const SemanticTokens &Tokens) { return llvm::json::Object{{"resultId", Tokens.resultId}, {"data", encodeTokens(Tokens.tokens)}}; } llvm::json::Value toJSON(const SemanticTokensEdit &Edit) { return llvm::json::Object{ {"start", SemanticTokenEncodingSize * Edit.startToken}, {"deleteCount", SemanticTokenEncodingSize * Edit.deleteTokens}, {"data", encodeTokens(Edit.tokens)}}; } llvm::json::Value toJSON(const SemanticTokensOrDelta &TE) { llvm::json::Object Result{{"resultId", TE.resultId}}; if (TE.edits) Result["edits"] = *TE.edits; if (TE.tokens) Result["data"] = encodeTokens(*TE.tokens); return std::move(Result); } bool fromJSON(const llvm::json::Value &Params, SemanticTokensParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", R.textDocument); } bool fromJSON(const llvm::json::Value &Params, SemanticTokensDeltaParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", R.textDocument) && O.map("previousResultId", R.previousResultId); } llvm::json::Value toJSON(const InactiveRegionsParams &InactiveRegions) { return llvm::json::Object{ {"textDocument", InactiveRegions.TextDocument}, {"regions", std::move(InactiveRegions.InactiveRegions)}}; } llvm::raw_ostream &operator<<(llvm::raw_ostream &O, const DocumentHighlight &V) { O << V.range; if (V.kind == DocumentHighlightKind::Read) O << "(r)"; if (V.kind == DocumentHighlightKind::Write) O << "(w)"; return O; } bool fromJSON(const llvm::json::Value &Params, DidChangeConfigurationParams &CCP, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("settings", CCP.settings); } bool fromJSON(const llvm::json::Value &Params, ClangdCompileCommand &CDbUpdate, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("workingDirectory", CDbUpdate.workingDirectory) && O.map("compilationCommand", CDbUpdate.compilationCommand); } bool fromJSON(const llvm::json::Value &Params, ConfigurationSettings &S, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); if (!O) return true; // 'any' type in LSP. return mapOptOrNull(Params, "compilationDatabaseChanges", S.compilationDatabaseChanges, P); } bool fromJSON(const llvm::json::Value &Params, InitializationOptions &Opts, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); if (!O) return true; // 'any' type in LSP. return fromJSON(Params, Opts.ConfigSettings, P) && O.map("compilationDatabasePath", Opts.compilationDatabasePath) && mapOptOrNull(Params, "fallbackFlags", Opts.fallbackFlags, P) && mapOptOrNull(Params, "clangdFileStatus", Opts.FileStatus, P); } bool fromJSON(const llvm::json::Value &E, TypeHierarchyDirection &Out, llvm::json::Path P) { auto T = E.getAsInteger(); if (!T) return false; if (*T < static_cast(TypeHierarchyDirection::Children) || *T > static_cast(TypeHierarchyDirection::Both)) return false; Out = static_cast(*T); return true; } bool fromJSON(const llvm::json::Value &Params, TypeHierarchyPrepareParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", R.textDocument) && O.map("position", R.position) && mapOptOrNull(Params, "resolve", R.resolve, P) && mapOptOrNull(Params, "direction", R.direction, P); } llvm::raw_ostream &operator<<(llvm::raw_ostream &O, const TypeHierarchyItem &I) { return O << I.name << " - " << toJSON(I); } llvm::json::Value toJSON(const TypeHierarchyItem::ResolveParams &RP) { llvm::json::Object Result{{"symbolID", RP.symbolID}}; if (RP.parents) Result["parents"] = RP.parents; return std::move(Result); } bool fromJSON(const llvm::json::Value &Params, TypeHierarchyItem::ResolveParams &RP, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("symbolID", RP.symbolID) && mapOptOrNull(Params, "parents", RP.parents, P); } llvm::json::Value toJSON(const TypeHierarchyItem &I) { llvm::json::Object Result{ {"name", I.name}, {"kind", static_cast(I.kind)}, {"range", I.range}, {"selectionRange", I.selectionRange}, {"uri", I.uri}, {"data", I.data}, }; if (I.detail) Result["detail"] = I.detail; return std::move(Result); } bool fromJSON(const llvm::json::Value &Params, TypeHierarchyItem &I, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); // Required fields. return O && O.map("name", I.name) && O.map("kind", I.kind) && O.map("uri", I.uri) && O.map("range", I.range) && O.map("selectionRange", I.selectionRange) && mapOptOrNull(Params, "detail", I.detail, P) && mapOptOrNull(Params, "deprecated", I.deprecated, P) && mapOptOrNull(Params, "parents", I.parents, P) && mapOptOrNull(Params, "children", I.children, P) && mapOptOrNull(Params, "data", I.data, P); } bool fromJSON(const llvm::json::Value &Params, ResolveTypeHierarchyItemParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("item", R.item) && mapOptOrNull(Params, "resolve", R.resolve, P) && mapOptOrNull(Params, "direction", R.direction, P); } bool fromJSON(const llvm::json::Value &Params, ReferenceContext &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.mapOptional("includeDeclaration", R.includeDeclaration); } bool fromJSON(const llvm::json::Value &Params, ReferenceParams &R, llvm::json::Path P) { TextDocumentPositionParams &Base = R; llvm::json::ObjectMapper O(Params, P); return fromJSON(Params, Base, P) && O && O.mapOptional("context", R.context); } llvm::json::Value toJSON(SymbolTag Tag) { return llvm::json::Value{static_cast(Tag)}; } llvm::json::Value toJSON(const CallHierarchyItem &I) { llvm::json::Object Result{{"name", I.name}, {"kind", static_cast(I.kind)}, {"range", I.range}, {"selectionRange", I.selectionRange}, {"uri", I.uri}}; if (!I.tags.empty()) Result["tags"] = I.tags; if (!I.detail.empty()) Result["detail"] = I.detail; if (!I.data.empty()) Result["data"] = I.data; return std::move(Result); } bool fromJSON(const llvm::json::Value &Params, CallHierarchyItem &I, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); // Populate the required fields only. We don't care about the // optional fields `Tags` and `Detail` for the purpose of // client --> server communication. return O && O.map("name", I.name) && O.map("kind", I.kind) && O.map("uri", I.uri) && O.map("range", I.range) && O.map("selectionRange", I.selectionRange) && mapOptOrNull(Params, "data", I.data, P); } bool fromJSON(const llvm::json::Value &Params, CallHierarchyIncomingCallsParams &C, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O.map("item", C.item); } llvm::json::Value toJSON(const CallHierarchyIncomingCall &C) { return llvm::json::Object{{"from", C.from}, {"fromRanges", C.fromRanges}}; } bool fromJSON(const llvm::json::Value &Params, CallHierarchyOutgoingCallsParams &C, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O.map("item", C.item); } llvm::json::Value toJSON(const CallHierarchyOutgoingCall &C) { return llvm::json::Object{{"to", C.to}, {"fromRanges", C.fromRanges}}; } bool fromJSON(const llvm::json::Value &Params, InlayHintsParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", R.textDocument) && O.map("range", R.range); } llvm::json::Value toJSON(const InlayHintKind &Kind) { switch (Kind) { case InlayHintKind::Type: return 1; case InlayHintKind::Parameter: return 2; case InlayHintKind::Designator: case InlayHintKind::BlockEnd: // This is an extension, don't serialize. return nullptr; } llvm_unreachable("Unknown clang.clangd.InlayHintKind"); } llvm::json::Value toJSON(const InlayHint &H) { llvm::json::Object Result{{"position", H.position}, {"label", H.label}, {"paddingLeft", H.paddingLeft}, {"paddingRight", H.paddingRight}}; auto K = toJSON(H.kind); if (!K.getAsNull()) Result["kind"] = std::move(K); return std::move(Result); } bool operator==(const InlayHint &A, const InlayHint &B) { return std::tie(A.position, A.range, A.kind, A.label) == std::tie(B.position, B.range, B.kind, B.label); } bool operator<(const InlayHint &A, const InlayHint &B) { return std::tie(A.position, A.range, A.kind, A.label) < std::tie(B.position, B.range, B.kind, B.label); } llvm::raw_ostream &operator<<(llvm::raw_ostream &OS, InlayHintKind Kind) { auto ToString = [](InlayHintKind K) { switch (K) { case InlayHintKind::Parameter: return "parameter"; case InlayHintKind::Type: return "type"; case InlayHintKind::Designator: return "designator"; case InlayHintKind::BlockEnd: return "block-end"; } llvm_unreachable("Unknown clang.clangd.InlayHintKind"); }; return OS << ToString(Kind); } static const char *toString(OffsetEncoding OE) { switch (OE) { case OffsetEncoding::UTF8: return "utf-8"; case OffsetEncoding::UTF16: return "utf-16"; case OffsetEncoding::UTF32: return "utf-32"; case OffsetEncoding::UnsupportedEncoding: return "unknown"; } llvm_unreachable("Unknown clang.clangd.OffsetEncoding"); } llvm::json::Value toJSON(const OffsetEncoding &OE) { return toString(OE); } bool fromJSON(const llvm::json::Value &V, OffsetEncoding &OE, llvm::json::Path P) { auto Str = V.getAsString(); if (!Str) return false; OE = llvm::StringSwitch(*Str) .Case("utf-8", OffsetEncoding::UTF8) .Case("utf-16", OffsetEncoding::UTF16) .Case("utf-32", OffsetEncoding::UTF32) .Default(OffsetEncoding::UnsupportedEncoding); return true; } llvm::raw_ostream &operator<<(llvm::raw_ostream &OS, OffsetEncoding Enc) { return OS << toString(Enc); } bool fromJSON(const llvm::json::Value &Params, SelectionRangeParams &S, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", S.textDocument) && O.map("positions", S.positions); } llvm::json::Value toJSON(const SelectionRange &Out) { if (Out.parent) { return llvm::json::Object{{"range", Out.range}, {"parent", toJSON(*Out.parent)}}; } return llvm::json::Object{{"range", Out.range}}; } bool fromJSON(const llvm::json::Value &Params, DocumentLinkParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", R.textDocument); } llvm::json::Value toJSON(const DocumentLink &DocumentLink) { return llvm::json::Object{ {"range", DocumentLink.range}, {"target", DocumentLink.target}, }; } bool fromJSON(const llvm::json::Value &Params, FoldingRangeParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", R.textDocument); } const llvm::StringLiteral FoldingRange::REGION_KIND = "region"; const llvm::StringLiteral FoldingRange::COMMENT_KIND = "comment"; const llvm::StringLiteral FoldingRange::IMPORT_KIND = "import"; llvm::json::Value toJSON(const FoldingRange &Range) { llvm::json::Object Result{ {"startLine", Range.startLine}, {"endLine", Range.endLine}, }; if (Range.startCharacter) Result["startCharacter"] = Range.startCharacter; if (Range.endCharacter) Result["endCharacter"] = Range.endCharacter; if (!Range.kind.empty()) Result["kind"] = Range.kind; return Result; } llvm::json::Value toJSON(const MemoryTree &MT) { llvm::json::Object Out; int64_t Total = MT.self(); Out["_self"] = Total; for (const auto &Entry : MT.children()) { auto Child = toJSON(Entry.getSecond()); Total += *Child.getAsObject()->getInteger("_total"); Out[Entry.first] = std::move(Child); } Out["_total"] = Total; return Out; } bool fromJSON(const llvm::json::Value &Params, ASTParams &R, llvm::json::Path P) { llvm::json::ObjectMapper O(Params, P); return O && O.map("textDocument", R.textDocument) && O.map("range", R.range); } llvm::json::Value toJSON(const ASTNode &N) { llvm::json::Object Result{ {"role", N.role}, {"kind", N.kind}, }; if (!N.children.empty()) Result["children"] = N.children; if (!N.detail.empty()) Result["detail"] = N.detail; if (!N.arcana.empty()) Result["arcana"] = N.arcana; if (N.range) Result["range"] = *N.range; return Result; } llvm::raw_ostream &operator<<(llvm::raw_ostream &OS, const ASTNode &Root) { std::function Print = [&](const ASTNode &N, unsigned Level) { OS.indent(2 * Level) << N.role << ": " << N.kind; if (!N.detail.empty()) OS << " - " << N.detail; OS << "\n"; for (const ASTNode &C : N.children) Print(C, Level + 1); }; Print(Root, 0); return OS; } bool fromJSON(const llvm::json::Value &E, SymbolID &S, llvm::json::Path P) { auto Str = E.getAsString(); if (!Str) { P.report("expected a string"); return false; } auto ID = SymbolID::fromStr(*Str); if (!ID) { elog("Malformed symbolid: {0}", ID.takeError()); P.report("malformed symbolid"); return false; } S = *ID; return true; } llvm::json::Value toJSON(const SymbolID &S) { return S.str(); } } // namespace clangd } // namespace clang