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llvm / llvm-project / d1326a3b10054dd89be46f51f857d009cf8ae14f / . / clang-tools-extra / clangd / Diagnostics.cpp
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//===--- Diagnostics.cpp -----------------------------------------*- C++-*-===//
//
// 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
//
//===----------------------------------------------------------------------===//
#include "Diagnostics.h"
#include "../clang-tidy/ClangTidyDiagnosticConsumer.h"
#include "Compiler.h"
#include "Protocol.h"
#include "SourceCode.h"
#include "support/Logger.h"
#include "clang/Basic/AllDiagnostics.h"
#include "clang/Basic/Diagnostic.h"
#include "clang/Basic/DiagnosticIDs.h"
#include "clang/Basic/FileManager.h"
#include "clang/Basic/SourceLocation.h"
#include "clang/Basic/SourceManager.h"
#include "clang/Lex/Lexer.h"
#include "clang/Lex/Token.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/ADT/DenseSet.h"
#include "llvm/ADT/Optional.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/ADT/ScopeExit.h"
#include "llvm/ADT/SmallString.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/ADT/Twine.h"
#include "llvm/Support/Capacity.h"
#include "llvm/Support/Path.h"
#include "llvm/Support/ScopedPrinter.h"
#include "llvm/Support/Signals.h"
#include "llvm/Support/raw_ostream.h"
#include <algorithm>
#include <cstddef>
#include <vector>
namespace clang {
namespace clangd {
namespace {
const char *getDiagnosticCode(unsigned ID) {
switch (ID) {
#define DIAG(ENUM, CLASS, DEFAULT_MAPPING, DESC, GROPU, SFINAE, NOWERROR, \
SHOWINSYSHEADER, DEFERRABLE, CATEGORY) \
case clang::diag::ENUM: \
return #ENUM;
#include "clang/Basic/DiagnosticASTKinds.inc"
#include "clang/Basic/DiagnosticAnalysisKinds.inc"
#include "clang/Basic/DiagnosticCommentKinds.inc"
#include "clang/Basic/DiagnosticCommonKinds.inc"
#include "clang/Basic/DiagnosticDriverKinds.inc"
#include "clang/Basic/DiagnosticFrontendKinds.inc"
#include "clang/Basic/DiagnosticLexKinds.inc"
#include "clang/Basic/DiagnosticParseKinds.inc"
#include "clang/Basic/DiagnosticRefactoringKinds.inc"
#include "clang/Basic/DiagnosticSemaKinds.inc"
#include "clang/Basic/DiagnosticSerializationKinds.inc"
#undef DIAG
default:
return nullptr;
}
}
bool mentionsMainFile(const Diag &D) {
if (D.InsideMainFile)
return true;
// Fixes are always in the main file.
if (!D.Fixes.empty())
return true;
for (auto &N : D.Notes) {
if (N.InsideMainFile)
return true;
}
return false;
}
bool isExcluded(unsigned DiagID) {
// clang will always fail parsing MS ASM, we don't link in desc + asm parser.
if (DiagID == clang::diag::err_msasm_unable_to_create_target ||
DiagID == clang::diag::err_msasm_unsupported_arch)
return true;
return false;
}
// Checks whether a location is within a half-open range.
// Note that clang also uses closed source ranges, which this can't handle!
bool locationInRange(SourceLocation L, CharSourceRange R,
const SourceManager &M) {
assert(R.isCharRange());
if (!R.isValid() || M.getFileID(R.getBegin()) != M.getFileID(R.getEnd()) ||
M.getFileID(R.getBegin()) != M.getFileID(L))
return false;
return L != R.getEnd() && M.isPointWithin(L, R.getBegin(), R.getEnd());
}
// Clang diags have a location (shown as ^) and 0 or more ranges (~~~~).
// LSP needs a single range.
Range diagnosticRange(const clang::Diagnostic &D, const LangOptions &L) {
auto &M = D.getSourceManager();
auto Loc = M.getFileLoc(D.getLocation());
for (const auto &CR : D.getRanges()) {
auto R = Lexer::makeFileCharRange(CR, M, L);
if (locationInRange(Loc, R, M))
return halfOpenToRange(M, R);
}
// The range may be given as a fixit hint instead.
for (const auto &F : D.getFixItHints()) {
auto R = Lexer::makeFileCharRange(F.RemoveRange, M, L);
if (locationInRange(Loc, R, M))
return halfOpenToRange(M, R);
}
// If the token at the location is not a comment, we use the token.
// If we can't get the token at the location, fall back to using the location
auto R = CharSourceRange::getCharRange(Loc);
Token Tok;
if (!Lexer::getRawToken(Loc, Tok, M, L, true) && Tok.isNot(tok::comment)) {
R = CharSourceRange::getTokenRange(Tok.getLocation(), Tok.getEndLoc());
}
return halfOpenToRange(M, R);
}
// Try to find a location in the main-file to report the diagnostic D.
// Returns a description like "in included file", or nullptr on failure.
const char *getMainFileRange(const Diag &D, const SourceManager &SM,
SourceLocation DiagLoc, Range &R) {
// Look for a note in the main file indicating template instantiation.
for (const auto &N : D.Notes) {
if (N.InsideMainFile) {
switch (N.ID) {
case diag::note_template_class_instantiation_was_here:
case diag::note_template_class_explicit_specialization_was_here:
case diag::note_template_class_instantiation_here:
case diag::note_template_member_class_here:
case diag::note_template_member_function_here:
case diag::note_function_template_spec_here:
case diag::note_template_static_data_member_def_here:
case diag::note_template_variable_def_here:
case diag::note_template_enum_def_here:
case diag::note_template_nsdmi_here:
case diag::note_template_type_alias_instantiation_here:
case diag::note_template_exception_spec_instantiation_here:
case diag::note_template_requirement_instantiation_here:
case diag::note_evaluating_exception_spec_here:
case diag::note_default_arg_instantiation_here:
case diag::note_default_function_arg_instantiation_here:
case diag::note_explicit_template_arg_substitution_here:
case diag::note_function_template_deduction_instantiation_here:
case diag::note_deduced_template_arg_substitution_here:
case diag::note_prior_template_arg_substitution:
case diag::note_template_default_arg_checking:
case diag::note_concept_specialization_here:
case diag::note_nested_requirement_here:
case diag::note_checking_constraints_for_template_id_here:
case diag::note_checking_constraints_for_var_spec_id_here:
case diag::note_checking_constraints_for_class_spec_id_here:
case diag::note_checking_constraints_for_function_here:
case diag::note_constraint_substitution_here:
case diag::note_constraint_normalization_here:
case diag::note_parameter_mapping_substitution_here:
R = N.Range;
return "in template";
default:
break;
}
}
}
// Look for where the file with the error was #included.
auto GetIncludeLoc = [&SM](SourceLocation SLoc) {
return SM.getIncludeLoc(SM.getFileID(SLoc));
};
for (auto IncludeLocation = GetIncludeLoc(SM.getExpansionLoc(DiagLoc));
IncludeLocation.isValid();
IncludeLocation = GetIncludeLoc(IncludeLocation)) {
if (clangd::isInsideMainFile(IncludeLocation, SM)) {
R.start = sourceLocToPosition(SM, IncludeLocation);
R.end = sourceLocToPosition(
SM,
Lexer::getLocForEndOfToken(IncludeLocation, 0, SM, LangOptions()));
return "in included file";
}
}
return nullptr;
}
// Place the diagnostic the main file, rather than the header, if possible:
// - for errors in included files, use the #include location
// - for errors in template instantiation, use the instantiation location
// In both cases, add the original header location as a note.
bool tryMoveToMainFile(Diag &D, FullSourceLoc DiagLoc) {
const SourceManager &SM = DiagLoc.getManager();
DiagLoc = DiagLoc.getExpansionLoc();
Range R;
const char *Prefix = getMainFileRange(D, SM, DiagLoc, R);
if (!Prefix)
return false;
// Add a note that will point to real diagnostic.
const auto *FE = SM.getFileEntryForID(SM.getFileID(DiagLoc));
D.Notes.emplace(D.Notes.begin());
Note &N = D.Notes.front();
N.AbsFile = std::string(FE->tryGetRealPathName());
N.File = std::string(FE->getName());
N.Message = "error occurred here";
N.Range = D.Range;
// Update diag to point at include inside main file.
D.File = SM.getFileEntryForID(SM.getMainFileID())->getName().str();
D.Range = std::move(R);
D.InsideMainFile = true;
// Update message to mention original file.
D.Message = llvm::formatv("{0}: {1}", Prefix, D.Message);
return true;
}
bool isInsideMainFile(const clang::Diagnostic &D) {
if (!D.hasSourceManager())
return false;
return clangd::isInsideMainFile(D.getLocation(), D.getSourceManager());
}
bool isNote(DiagnosticsEngine::Level L) {
return L == DiagnosticsEngine::Note || L == DiagnosticsEngine::Remark;
}
llvm::StringRef diagLeveltoString(DiagnosticsEngine::Level Lvl) {
switch (Lvl) {
case DiagnosticsEngine::Ignored:
return "ignored";
case DiagnosticsEngine::Note:
return "note";
case DiagnosticsEngine::Remark:
return "remark";
case DiagnosticsEngine::Warning:
return "warning";
case DiagnosticsEngine::Error:
return "error";
case DiagnosticsEngine::Fatal:
return "fatal error";
}
llvm_unreachable("unhandled DiagnosticsEngine::Level");
}
/// Prints a single diagnostic in a clang-like manner, the output includes
/// location, severity and error message. An example of the output message is:
///
/// main.cpp:12:23: error: undeclared identifier
///
/// For main file we only print the basename and for all other files we print
/// the filename on a separate line to provide a slightly more readable output
/// in the editors:
///
/// dir1/dir2/dir3/../../dir4/header.h:12:23
/// error: undeclared identifier
void printDiag(llvm::raw_string_ostream &OS, const DiagBase &D) {
if (D.InsideMainFile) {
// Paths to main files are often taken from compile_command.json, where they
// are typically absolute. To reduce noise we print only basename for them,
// it should not be confusing and saves space.
OS << llvm::sys::path::filename(D.File) << ":";
} else {
OS << D.File << ":";
}
// Note +1 to line and character. clangd::Range is zero-based, but when
// printing for users we want one-based indexes.
auto Pos = D.Range.start;
OS << (Pos.line + 1) << ":" << (Pos.character + 1) << ":";
// The non-main-file paths are often too long, putting them on a separate
// line improves readability.
if (D.InsideMainFile)
OS << " ";
else
OS << "\n";
OS << diagLeveltoString(D.Severity) << ": " << D.Message;
}
/// Capitalizes the first word in the diagnostic's message.
std::string capitalize(std::string Message) {
if (!Message.empty())
Message[0] = llvm::toUpper(Message[0]);
return Message;
}
/// Returns a message sent to LSP for the main diagnostic in \p D.
/// This message may include notes, if they're not emitted in some other way.
/// Example output:
///
/// no matching function for call to 'foo'
///
/// main.cpp:3:5: note: candidate function not viable: requires 2 arguments
///
/// dir1/dir2/dir3/../../dir4/header.h:12:23
/// note: candidate function not viable: requires 3 arguments
std::string mainMessage(const Diag &D, const ClangdDiagnosticOptions &Opts) {
std::string Result;
llvm::raw_string_ostream OS(Result);
OS << D.Message;
if (Opts.DisplayFixesCount && !D.Fixes.empty())
OS << " (" << (D.Fixes.size() > 1 ? "fixes" : "fix") << " available)";
// If notes aren't emitted as structured info, add them to the message.
if (!Opts.EmitRelatedLocations)
for (auto &Note : D.Notes) {
OS << "\n\n";
printDiag(OS, Note);
}
OS.flush();
return capitalize(std::move(Result));
}
/// Returns a message sent to LSP for the note of the main diagnostic.
std::string noteMessage(const Diag &Main, const DiagBase &Note,
const ClangdDiagnosticOptions &Opts) {
std::string Result;
llvm::raw_string_ostream OS(Result);
OS << Note.Message;
// If the client doesn't support structured links between the note and the
// original diagnostic, then emit the main diagnostic to give context.
if (!Opts.EmitRelatedLocations) {
OS << "\n\n";
printDiag(OS, Main);
}
OS.flush();
return capitalize(std::move(Result));
}
void setTags(clangd::Diag &D) {
static const auto *DeprecatedDiags = new llvm::DenseSet<unsigned>{
diag::warn_access_decl_deprecated,
diag::warn_atl_uuid_deprecated,
diag::warn_deprecated,
diag::warn_deprecated_altivec_src_compat,
diag::warn_deprecated_comma_subscript,
diag::warn_deprecated_compound_assign_volatile,
diag::warn_deprecated_copy,
diag::warn_deprecated_copy_with_dtor,
diag::warn_deprecated_copy_with_user_provided_copy,
diag::warn_deprecated_copy_with_user_provided_dtor,
diag::warn_deprecated_def,
diag::warn_deprecated_increment_decrement_volatile,
diag::warn_deprecated_message,
diag::warn_deprecated_redundant_constexpr_static_def,
diag::warn_deprecated_register,
diag::warn_deprecated_simple_assign_volatile,
diag::warn_deprecated_string_literal_conversion,
diag::warn_deprecated_this_capture,
diag::warn_deprecated_volatile_param,
diag::warn_deprecated_volatile_return,
diag::warn_deprecated_volatile_structured_binding,
diag::warn_opencl_attr_deprecated_ignored,
diag::warn_property_method_deprecated,
diag::warn_vector_mode_deprecated,
};
static const auto *UnusedDiags = new llvm::DenseSet<unsigned>{
diag::warn_opencl_attr_deprecated_ignored,
diag::warn_pragma_attribute_unused,
diag::warn_unused_but_set_parameter,
diag::warn_unused_but_set_variable,
diag::warn_unused_comparison,
diag::warn_unused_const_variable,
diag::warn_unused_exception_param,
diag::warn_unused_function,
diag::warn_unused_label,
diag::warn_unused_lambda_capture,
diag::warn_unused_local_typedef,
diag::warn_unused_member_function,
diag::warn_unused_parameter,
diag::warn_unused_private_field,
diag::warn_unused_property_backing_ivar,
diag::warn_unused_template,
diag::warn_unused_variable,
};
if (DeprecatedDiags->contains(D.ID)) {
D.Tags.push_back(DiagnosticTag::Deprecated);
} else if (UnusedDiags->contains(D.ID)) {
D.Tags.push_back(DiagnosticTag::Unnecessary);
}
// FIXME: Set tags for tidy-based diagnostics too.
}
} // namespace
llvm::raw_ostream &operator<<(llvm::raw_ostream &OS, const DiagBase &D) {
OS << "[";
if (!D.InsideMainFile)
OS << D.File << ":";
OS << D.Range.start << "-" << D.Range.end << "] ";
return OS << D.Message;
}
llvm::raw_ostream &operator<<(llvm::raw_ostream &OS, const Fix &F) {
OS << F.Message << " {";
const char *Sep = "";
for (const auto &Edit : F.Edits) {
OS << Sep << Edit;
Sep = ", ";
}
return OS << "}";
}
llvm::raw_ostream &operator<<(llvm::raw_ostream &OS, const Diag &D) {
OS << static_cast<const DiagBase &>(D);
if (!D.Notes.empty()) {
OS << ", notes: {";
const char *Sep = "";
for (auto &Note : D.Notes) {
OS << Sep << Note;
Sep = ", ";
}
OS << "}";
}
if (!D.Fixes.empty()) {
OS << ", fixes: {";
const char *Sep = "";
for (auto &Fix : D.Fixes) {
OS << Sep << Fix;
Sep = ", ";
}
}
return OS;
}
CodeAction toCodeAction(const Fix &F, const URIForFile &File) {
CodeAction Action;
Action.title = F.Message;
Action.kind = std::string(CodeAction::QUICKFIX_KIND);
Action.edit.emplace();
Action.edit->changes[File.uri()] = {F.Edits.begin(), F.Edits.end()};
return Action;
}
Diag toDiag(const llvm::SMDiagnostic &D, Diag::DiagSource Source) {
Diag Result;
Result.Message = D.getMessage().str();
switch (D.getKind()) {
case llvm::SourceMgr::DK_Error:
Result.Severity = DiagnosticsEngine::Error;
break;
case llvm::SourceMgr::DK_Warning:
Result.Severity = DiagnosticsEngine::Warning;
break;
default:
break;
}
Result.Source = Source;
Result.AbsFile = D.getFilename().str();
Result.InsideMainFile = D.getSourceMgr()->FindBufferContainingLoc(
D.getLoc()) == D.getSourceMgr()->getMainFileID();
if (D.getRanges().empty())
Result.Range = {{D.getLineNo() - 1, D.getColumnNo()},
{D.getLineNo() - 1, D.getColumnNo()}};
else
Result.Range = {{D.getLineNo() - 1, (int)D.getRanges().front().first},
{D.getLineNo() - 1, (int)D.getRanges().front().second}};
return Result;
}
void toLSPDiags(
const Diag &D, const URIForFile &File, const ClangdDiagnosticOptions &Opts,
llvm::function_ref<void(clangd::Diagnostic, llvm::ArrayRef<Fix>)> OutFn) {
clangd::Diagnostic Main;
Main.severity = getSeverity(D.Severity);
// Main diagnostic should always refer to a range inside main file. If a
// diagnostic made it so for, it means either itself or one of its notes is
// inside main file.
if (D.InsideMainFile) {
Main.range = D.Range;
} else {
auto It =
llvm::find_if(D.Notes, [](const Note &N) { return N.InsideMainFile; });
assert(It != D.Notes.end() &&
"neither the main diagnostic nor notes are inside main file");
Main.range = It->Range;
}
Main.code = D.Name;
switch (D.Source) {
case Diag::Clang:
Main.source = "clang";
break;
case Diag::ClangTidy:
Main.source = "clang-tidy";
break;
case Diag::Clangd:
Main.source = "clangd";
break;
case Diag::ClangdConfig:
Main.source = "clangd-config";
break;
case Diag::Unknown:
break;
}
if (Opts.EmbedFixesInDiagnostics) {
Main.codeActions.emplace();
for (const auto &Fix : D.Fixes)
Main.codeActions->push_back(toCodeAction(Fix, File));
if (Main.codeActions->size() == 1)
Main.codeActions->front().isPreferred = true;
}
if (Opts.SendDiagnosticCategory && !D.Category.empty())
Main.category = D.Category;
Main.message = mainMessage(D, Opts);
if (Opts.EmitRelatedLocations) {
Main.relatedInformation.emplace();
for (auto &Note : D.Notes) {
if (!Note.AbsFile) {
vlog("Dropping note from unknown file: {0}", Note);
continue;
}
DiagnosticRelatedInformation RelInfo;
RelInfo.location.range = Note.Range;
RelInfo.location.uri =
URIForFile::canonicalize(*Note.AbsFile, File.file());
RelInfo.message = noteMessage(D, Note, Opts);
Main.relatedInformation->push_back(std::move(RelInfo));
}
}
Main.tags = D.Tags;
OutFn(std::move(Main), D.Fixes);
// If we didn't emit the notes as relatedLocations, emit separate diagnostics
// so the user can find the locations easily.
if (!Opts.EmitRelatedLocations)
for (auto &Note : D.Notes) {
if (!Note.InsideMainFile)
continue;
clangd::Diagnostic Res;
Res.severity = getSeverity(Note.Severity);
Res.range = Note.Range;
Res.message = noteMessage(D, Note, Opts);
OutFn(std::move(Res), llvm::ArrayRef<Fix>());
}
// FIXME: Get rid of the copies here by taking in a mutable clangd::Diag.
for (auto &Entry : D.OpaqueData)
Main.data.insert({Entry.first, Entry.second});
}
int getSeverity(DiagnosticsEngine::Level L) {
switch (L) {
case DiagnosticsEngine::Remark:
return 4;
case DiagnosticsEngine::Note:
return 3;
case DiagnosticsEngine::Warning:
return 2;
case DiagnosticsEngine::Fatal:
case DiagnosticsEngine::Error:
return 1;
case DiagnosticsEngine::Ignored:
return 0;
}
llvm_unreachable("Unknown diagnostic level!");
}
std::vector<Diag> StoreDiags::take(const clang::tidy::ClangTidyContext *Tidy) {
// Do not forget to emit a pending diagnostic if there is one.
flushLastDiag();
// Fill in name/source now that we have all the context needed to map them.
for (auto &Diag : Output) {
setTags(Diag);
if (const char *ClangDiag = getDiagnosticCode(Diag.ID)) {
// Warnings controlled by -Wfoo are better recognized by that name.
StringRef Warning = DiagnosticIDs::getWarningOptionForDiag(Diag.ID);
if (!Warning.empty()) {
Diag.Name = ("-W" + Warning).str();
} else {
StringRef Name(ClangDiag);
// Almost always an error, with a name like err_enum_class_reference.
// Drop the err_ prefix for brevity.
Name.consume_front("err_");
Diag.Name = std::string(Name);
}
Diag.Source = Diag::Clang;
continue;
}
if (Tidy != nullptr) {
std::string TidyDiag = Tidy->getCheckName(Diag.ID);
if (!TidyDiag.empty()) {
Diag.Name = std::move(TidyDiag);
Diag.Source = Diag::ClangTidy;
// clang-tidy bakes the name into diagnostic messages. Strip it out.
// It would be much nicer to make clang-tidy not do this.
auto CleanMessage = [&](std::string &Msg) {
StringRef Rest(Msg);
if (Rest.consume_back("]") && Rest.consume_back(Diag.Name) &&
Rest.consume_back(" ["))
Msg.resize(Rest.size());
};
CleanMessage(Diag.Message);
for (auto &Note : Diag.Notes)
CleanMessage(Note.Message);
for (auto &Fix : Diag.Fixes)
CleanMessage(Fix.Message);
continue;
}
}
}
// Deduplicate clang-tidy diagnostics -- some clang-tidy checks may emit
// duplicated messages due to various reasons (e.g. the check doesn't handle
// template instantiations well; clang-tidy alias checks).
std::set<std::pair<Range, std::string>> SeenDiags;
llvm::erase_if(Output, [&](const Diag &D) {
return !SeenDiags.emplace(D.Range, D.Message).second;
});
return std::move(Output);
}
void StoreDiags::BeginSourceFile(const LangOptions &Opts,
const Preprocessor *PP) {
LangOpts = Opts;
if (PP) {
OrigSrcMgr = &PP->getSourceManager();
}
}
void StoreDiags::EndSourceFile() {
flushLastDiag();
LangOpts = None;
OrigSrcMgr = nullptr;
}
/// Sanitizes a piece for presenting it in a synthesized fix message. Ensures
/// the result is not too large and does not contain newlines.
static void writeCodeToFixMessage(llvm::raw_ostream &OS, llvm::StringRef Code) {
constexpr unsigned MaxLen = 50;
// Only show the first line if there are many.
llvm::StringRef R = Code.split('\n').first;
// Shorten the message if it's too long.
R = R.take_front(MaxLen);
OS << R;
if (R.size() != Code.size())
OS << "…";
}
/// Fills \p D with all information, except the location-related bits.
/// Also note that ID and Name are not part of clangd::DiagBase and should be
/// set elsewhere.
static void fillNonLocationData(DiagnosticsEngine::Level DiagLevel,
const clang::Diagnostic &Info,
clangd::DiagBase &D) {
llvm::SmallString<64> Message;
Info.FormatDiagnostic(Message);
D.Message = std::string(Message.str());
D.Severity = DiagLevel;
D.Category = DiagnosticIDs::getCategoryNameFromID(
DiagnosticIDs::getCategoryNumberForDiag(Info.getID()))
.str();
}
void StoreDiags::HandleDiagnostic(DiagnosticsEngine::Level DiagLevel,
const clang::Diagnostic &Info) {
// If the diagnostic was generated for a different SourceManager, skip it.
// This happens when a module is imported and needs to be implicitly built.
// The compilation of that module will use the same StoreDiags, but different
// SourceManager.
if (OrigSrcMgr && Info.hasSourceManager() &&
OrigSrcMgr != &Info.getSourceManager()) {
IgnoreDiagnostics::log(DiagLevel, Info);
return;
}
DiagnosticConsumer::HandleDiagnostic(DiagLevel, Info);
bool OriginallyError =
Info.getDiags()->getDiagnosticIDs()->isDefaultMappingAsError(
Info.getID());
if (Info.getLocation().isInvalid()) {
// Handle diagnostics coming from command-line arguments. The source manager
// is *not* available at this point, so we cannot use it.
if (!OriginallyError) {
IgnoreDiagnostics::log(DiagLevel, Info);
return; // non-errors add too much noise, do not show them.
}
flushLastDiag();
LastDiag = Diag();
LastDiagLoc.reset();
LastDiagOriginallyError = OriginallyError;
LastDiag->ID = Info.getID();
fillNonLocationData(DiagLevel, Info, *LastDiag);
LastDiag->InsideMainFile = true;
// Put it at the start of the main file, for a lack of a better place.
LastDiag->Range.start = Position{0, 0};
LastDiag->Range.end = Position{0, 0};
return;
}
if (!LangOpts || !Info.hasSourceManager()) {
IgnoreDiagnostics::log(DiagLevel, Info);
return;
}
bool InsideMainFile = isInsideMainFile(Info);
SourceManager &SM = Info.getSourceManager();
auto FillDiagBase = [&](DiagBase &D) {
fillNonLocationData(DiagLevel, Info, D);
D.InsideMainFile = InsideMainFile;
D.Range = diagnosticRange(Info, *LangOpts);
D.File = std::string(SM.getFilename(Info.getLocation()));
D.AbsFile = getCanonicalPath(
SM.getFileEntryForID(SM.getFileID(Info.getLocation())), SM);
D.ID = Info.getID();
return D;
};
auto AddFix = [&](bool SyntheticMessage) -> bool {
assert(!Info.getFixItHints().empty() &&
"diagnostic does not have attached fix-its");
if (!InsideMainFile)
return false;
// Copy as we may modify the ranges.
auto FixIts = Info.getFixItHints().vec();
llvm::SmallVector<TextEdit, 1> Edits;
for (auto &FixIt : FixIts) {
// Allow fixits within a single macro-arg expansion to be applied.
// This can be incorrect if the argument is expanded multiple times in
// different contexts. Hopefully this is rare!
if (FixIt.RemoveRange.getBegin().isMacroID() &&
FixIt.RemoveRange.getEnd().isMacroID() &&
SM.getFileID(FixIt.RemoveRange.getBegin()) ==
SM.getFileID(FixIt.RemoveRange.getEnd())) {
FixIt.RemoveRange = CharSourceRange(
{SM.getTopMacroCallerLoc(FixIt.RemoveRange.getBegin()),
SM.getTopMacroCallerLoc(FixIt.RemoveRange.getEnd())},
FixIt.RemoveRange.isTokenRange());
}
// Otherwise, follow clang's behavior: no fixits in macros.
if (FixIt.RemoveRange.getBegin().isMacroID() ||
FixIt.RemoveRange.getEnd().isMacroID())
return false;
if (!isInsideMainFile(FixIt.RemoveRange.getBegin(), SM))
return false;
Edits.push_back(toTextEdit(FixIt, SM, *LangOpts));
}
llvm::SmallString<64> Message;
// If requested and possible, create a message like "change 'foo' to 'bar'".
if (SyntheticMessage && FixIts.size() == 1) {
const auto &FixIt = FixIts.front();
bool Invalid = false;
llvm::StringRef Remove =
Lexer::getSourceText(FixIt.RemoveRange, SM, *LangOpts, &Invalid);
llvm::StringRef Insert = FixIt.CodeToInsert;
if (!Invalid) {
llvm::raw_svector_ostream M(Message);
if (!Remove.empty() && !Insert.empty()) {
M << "change '";
writeCodeToFixMessage(M, Remove);
M << "' to '";
writeCodeToFixMessage(M, Insert);
M << "'";
} else if (!Remove.empty()) {
M << "remove '";
writeCodeToFixMessage(M, Remove);
M << "'";
} else if (!Insert.empty()) {
M << "insert '";
writeCodeToFixMessage(M, Insert);
M << "'";
}
// Don't allow source code to inject newlines into diagnostics.
std::replace(Message.begin(), Message.end(), '\n', ' ');
}
}
if (Message.empty()) // either !SyntheticMessage, or we failed to make one.
Info.FormatDiagnostic(Message);
LastDiag->Fixes.push_back(
Fix{std::string(Message.str()), std::move(Edits)});
return true;
};
if (!isNote(DiagLevel)) {
// Handle the new main diagnostic.
flushLastDiag();
LastDiag = Diag();
// FIXME: Merge with feature modules.
if (Adjuster)
DiagLevel = Adjuster(DiagLevel, Info);
FillDiagBase(*LastDiag);
if (isExcluded(LastDiag->ID))
LastDiag->Severity = DiagnosticsEngine::Ignored;
if (DiagCB)
DiagCB(Info, *LastDiag);
// Don't bother filling in the rest if diag is going to be dropped.
if (LastDiag->Severity == DiagnosticsEngine::Ignored)
return;
LastDiagLoc.emplace(Info.getLocation(), Info.getSourceManager());
LastDiagOriginallyError = OriginallyError;
if (!Info.getFixItHints().empty())
AddFix(true /* try to invent a message instead of repeating the diag */);
if (Fixer) {
auto ExtraFixes = Fixer(LastDiag->Severity, Info);
LastDiag->Fixes.insert(LastDiag->Fixes.end(), ExtraFixes.begin(),
ExtraFixes.end());
}
} else {
// Handle a note to an existing diagnostic.
if (!LastDiag) {
assert(false && "Adding a note without main diagnostic");
IgnoreDiagnostics::log(DiagLevel, Info);
return;
}
// If a diagnostic was suppressed due to the suppression filter,
// also suppress notes associated with it.
if (LastDiag->Severity == DiagnosticsEngine::Ignored)
return;
if (!Info.getFixItHints().empty()) {
// A clang note with fix-it is not a separate diagnostic in clangd. We
// attach it as a Fix to the main diagnostic instead.
if (!AddFix(false /* use the note as the message */))
IgnoreDiagnostics::log(DiagLevel, Info);
} else {
// A clang note without fix-its corresponds to clangd::Note.
Note N;
FillDiagBase(N);
LastDiag->Notes.push_back(std::move(N));
}
}
}
void StoreDiags::flushLastDiag() {
if (!LastDiag)
return;
auto Finish = llvm::make_scope_exit([&, NDiags(Output.size())] {
if (Output.size() == NDiags) // No new diag emitted.
vlog("Dropped diagnostic: {0}: {1}", LastDiag->File, LastDiag->Message);
LastDiag.reset();
});
if (LastDiag->Severity == DiagnosticsEngine::Ignored)
return;
// Move errors that occur from headers into main file.
if (!LastDiag->InsideMainFile && LastDiagLoc && LastDiagOriginallyError) {
if (tryMoveToMainFile(*LastDiag, *LastDiagLoc)) {
// Suppress multiple errors from the same inclusion.
if (!IncludedErrorLocations
.insert({LastDiag->Range.start.line,
LastDiag->Range.start.character})
.second)
return;
}
}
if (!mentionsMainFile(*LastDiag))
return;
Output.push_back(std::move(*LastDiag));
}
bool isBuiltinDiagnosticSuppressed(unsigned ID,
const llvm::StringSet<> &Suppress) {
if (const char *CodePtr = getDiagnosticCode(ID)) {
if (Suppress.contains(normalizeSuppressedCode(CodePtr)))
return true;
}
StringRef Warning = DiagnosticIDs::getWarningOptionForDiag(ID);
if (!Warning.empty() && Suppress.contains(Warning))
return true;
return false;
}
llvm::StringRef normalizeSuppressedCode(llvm::StringRef Code) {
Code.consume_front("err_");
Code.consume_front("-W");
return Code;
}
} // namespace clangd
} // namespace clang