#include "clang_complete.h" #include "code_complete_cache.h" #include "message_handler.h" #include "queue_manager.h" #include "timer.h" #include namespace { MethodType kMethodType = "textDocument/signatureHelp"; struct In_TextDocumentSignatureHelp : public RequestInMessage { MethodType GetMethodType() const override { return kMethodType; } lsTextDocumentPositionParams params; }; MAKE_REFLECT_STRUCT(In_TextDocumentSignatureHelp, id, params); REGISTER_IN_MESSAGE(In_TextDocumentSignatureHelp); // Represents a parameter of a callable-signature. A parameter can // have a label and a doc-comment. struct lsParameterInformation { // The label of this parameter. Will be shown in // the UI. std::string label; // The human-readable doc-comment of this parameter. Will be shown // in the UI but can be omitted. optional documentation; }; MAKE_REFLECT_STRUCT(lsParameterInformation, label, documentation); // Represents the signature of something callable. A signature // can have a label, like a function-name, a doc-comment, and // a set of parameters. struct lsSignatureInformation { // The label of this signature. Will be shown in // the UI. std::string label; // The human-readable doc-comment of this signature. Will be shown // in the UI but can be omitted. optional documentation; // The parameters of this signature. std::vector parameters; }; MAKE_REFLECT_STRUCT(lsSignatureInformation, label, documentation, parameters); // Signature help represents the signature of something // callable. There can be multiple signature but only one // active and only one active parameter. struct lsSignatureHelp { // One or more signatures. std::vector signatures; // The active signature. If omitted or the value lies outside the // range of `signatures` the value defaults to zero or is ignored if // `signatures.length === 0`. Whenever possible implementors should // make an active decision about the active signature and shouldn't // rely on a default value. // In future version of the protocol this property might become // mandantory to better express this. optional activeSignature; // The active parameter of the active signature. If omitted or the value // lies outside the range of `signatures[activeSignature].parameters` // defaults to 0 if the active signature has parameters. If // the active signature has no parameters it is ignored. // In future version of the protocol this property might become // mandantory to better express the active parameter if the // active signature does have any. optional activeParameter; }; MAKE_REFLECT_STRUCT(lsSignatureHelp, signatures, activeSignature, activeParameter); struct Out_TextDocumentSignatureHelp : public lsOutMessage { lsRequestId id; lsSignatureHelp result; }; MAKE_REFLECT_STRUCT(Out_TextDocumentSignatureHelp, jsonrpc, id, result); struct Handler_TextDocumentSignatureHelp : MessageHandler { MethodType GetMethodType() const override { return kMethodType; } void Run(std::unique_ptr message) override { auto request = static_cast(message.get()); lsTextDocumentPositionParams& params = request->params; WorkingFile* file = working_files->GetFileByFilename(params.textDocument.uri.GetPath()); std::string search; int active_param = 0; if (file) { lsPosition completion_position; search = file->FindClosestCallNameInBuffer(params.position, &active_param, &completion_position); params.position = completion_position; } if (search.empty()) return; ClangCompleteManager::OnComplete callback = std::bind( [this](InMessage* message, std::string search, int active_param, const std::vector& results, bool is_cached_result) { auto msg = static_cast(message); Out_TextDocumentSignatureHelp out; out.id = msg->id; for (auto& result : results) { if (result.label != search) continue; lsSignatureInformation signature; signature.label = result.detail; for (auto& parameter : result.parameters_) { lsParameterInformation ls_param; ls_param.label = parameter; signature.parameters.push_back(ls_param); } out.result.signatures.push_back(signature); } // Prefer the signature with least parameter count but still larger // than active_param. out.result.activeSignature = 0; if (out.result.signatures.size()) { size_t num_parameters = SIZE_MAX; for (size_t i = 0; i < out.result.signatures.size(); ++i) { size_t t = out.result.signatures[i].parameters.size(); if (active_param < t && t < num_parameters) { out.result.activeSignature = int(i); num_parameters = t; } } } // Set signature to what we parsed from the working file. out.result.activeParameter = active_param; Timer timer; QueueManager::WriteStdout(kMethodType, out); if (!is_cached_result) { signature_cache->WithLock([&]() { signature_cache->cached_path_ = msg->params.textDocument.uri.GetPath(); signature_cache->cached_completion_position_ = msg->params.position; signature_cache->cached_results_ = results; }); } delete message; }, message.release(), search, active_param, std::placeholders::_1, std::placeholders::_2); if (signature_cache->IsCacheValid(params)) { signature_cache->WithLock([&]() { callback(signature_cache->cached_results_, true /*is_cached_result*/); }); } else { clang_complete->CodeComplete(request->id, params, std::move(callback)); } } }; REGISTER_MESSAGE_HANDLER(Handler_TextDocumentSignatureHelp); } // namespace