forked from OSchip/llvm-project
1010 lines
35 KiB
C++
1010 lines
35 KiB
C++
//===--- DiagnosticsTests.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 "Annotations.h"
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#include "Diagnostics.h"
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#include "ParsedAST.h"
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#include "Path.h"
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#include "Protocol.h"
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#include "SourceCode.h"
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#include "TestFS.h"
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#include "TestIndex.h"
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#include "TestTU.h"
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#include "index/MemIndex.h"
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#include "clang/Basic/Diagnostic.h"
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#include "clang/Basic/DiagnosticSema.h"
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#include "llvm/Support/ScopedPrinter.h"
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#include "gmock/gmock.h"
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#include "gtest/gtest.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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using ::testing::_;
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using ::testing::ElementsAre;
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using ::testing::Field;
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using ::testing::IsEmpty;
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using ::testing::Pair;
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using ::testing::UnorderedElementsAre;
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::testing::Matcher<const Diag &> WithFix(::testing::Matcher<Fix> FixMatcher) {
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return Field(&Diag::Fixes, ElementsAre(FixMatcher));
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}
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::testing::Matcher<const Diag &> WithFix(::testing::Matcher<Fix> FixMatcher1,
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::testing::Matcher<Fix> FixMatcher2) {
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return Field(&Diag::Fixes, UnorderedElementsAre(FixMatcher1, FixMatcher2));
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}
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::testing::Matcher<const Diag &>
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WithNote(::testing::Matcher<Note> NoteMatcher) {
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return Field(&Diag::Notes, ElementsAre(NoteMatcher));
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}
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MATCHER_P2(Diag, Range, Message,
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"Diag at " + llvm::to_string(Range) + " = [" + Message + "]") {
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return arg.Range == Range && arg.Message == Message;
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}
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MATCHER_P3(Fix, Range, Replacement, Message,
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"Fix " + llvm::to_string(Range) + " => " +
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::testing::PrintToString(Replacement) + " = [" + Message + "]") {
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return arg.Message == Message && arg.Edits.size() == 1 &&
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arg.Edits[0].range == Range && arg.Edits[0].newText == Replacement;
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}
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MATCHER_P(FixMessage, Message, "") {
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return arg.Message == Message;
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}
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MATCHER_P(EqualToLSPDiag, LSPDiag,
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"LSP diagnostic " + llvm::to_string(LSPDiag)) {
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if (toJSON(arg) != toJSON(LSPDiag)) {
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*result_listener << llvm::formatv("expected:\n{0:2}\ngot\n{1:2}",
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toJSON(LSPDiag), toJSON(arg))
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.str();
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return false;
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}
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return true;
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}
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MATCHER_P(DiagSource, S, "") { return arg.Source == S; }
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MATCHER_P(DiagName, N, "") { return arg.Name == N; }
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MATCHER_P(DiagSeverity, S, "") { return arg.Severity == S; }
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MATCHER_P(EqualToFix, Fix, "LSP fix " + llvm::to_string(Fix)) {
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if (arg.Message != Fix.Message)
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return false;
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if (arg.Edits.size() != Fix.Edits.size())
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return false;
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for (std::size_t I = 0; I < arg.Edits.size(); ++I) {
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if (arg.Edits[I].range != Fix.Edits[I].range ||
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arg.Edits[I].newText != Fix.Edits[I].newText)
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return false;
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}
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return true;
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}
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// Helper function to make tests shorter.
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Position pos(int line, int character) {
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Position Res;
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Res.line = line;
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Res.character = character;
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return Res;
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}
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TEST(DiagnosticsTest, DiagnosticRanges) {
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// Check we report correct ranges, including various edge-cases.
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Annotations Test(R"cpp(
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namespace test{};
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void $decl[[foo]]();
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class T{$explicit[[]]$constructor[[T]](int a);};
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int main() {
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$typo[[go\
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o]]();
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foo()$semicolon[[]]//with comments
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$unk[[unknown]]();
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double $type[[bar]] = "foo";
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struct Foo { int x; }; Foo a;
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a.$nomember[[y]];
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test::$nomembernamespace[[test]];
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}
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)cpp");
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auto TU = TestTU::withCode(Test.code());
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TU.ClangTidyChecks = "-*,google-explicit-constructor";
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EXPECT_THAT(
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TU.build().getDiagnostics(),
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ElementsAre(
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// This range spans lines.
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AllOf(Diag(Test.range("typo"),
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"use of undeclared identifier 'goo'; did you mean 'foo'?"),
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DiagSource(Diag::Clang), DiagName("undeclared_var_use_suggest"),
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WithFix(
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Fix(Test.range("typo"), "foo", "change 'go\\…' to 'foo'")),
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// This is a pretty normal range.
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WithNote(Diag(Test.range("decl"), "'foo' declared here"))),
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// This range is zero-width and insertion. Therefore make sure we are
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// not expanding it into other tokens. Since we are not going to
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// replace those.
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AllOf(Diag(Test.range("semicolon"), "expected ';' after expression"),
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WithFix(Fix(Test.range("semicolon"), ";", "insert ';'"))),
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// This range isn't provided by clang, we expand to the token.
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Diag(Test.range("unk"), "use of undeclared identifier 'unknown'"),
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Diag(Test.range("type"),
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"cannot initialize a variable of type 'double' with an lvalue "
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"of type 'const char [4]'"),
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Diag(Test.range("nomember"), "no member named 'y' in 'Foo'"),
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Diag(Test.range("nomembernamespace"),
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"no member named 'test' in namespace 'test'"),
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// We make sure here that the entire token is highlighted
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AllOf(Diag(Test.range("constructor"),
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"single-argument constructors must be marked explicit to "
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"avoid unintentional implicit conversions"),
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WithFix(Fix(Test.range("explicit"), "explicit ",
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"insert 'explicit '")))));
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}
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TEST(DiagnosticsTest, FlagsMatter) {
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Annotations Test("[[void]] main() {}");
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auto TU = TestTU::withCode(Test.code());
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EXPECT_THAT(TU.build().getDiagnostics(),
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ElementsAre(AllOf(Diag(Test.range(), "'main' must return 'int'"),
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WithFix(Fix(Test.range(), "int",
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"change 'void' to 'int'")))));
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// Same code built as C gets different diagnostics.
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TU.Filename = "Plain.c";
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EXPECT_THAT(
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TU.build().getDiagnostics(),
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ElementsAre(AllOf(
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Diag(Test.range(), "return type of 'main' is not 'int'"),
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WithFix(Fix(Test.range(), "int", "change return type to 'int'")))));
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}
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TEST(DiagnosticsTest, DiagnosticPreamble) {
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Annotations Test(R"cpp(
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#include $[["not-found.h"]]
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)cpp");
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auto TU = TestTU::withCode(Test.code());
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EXPECT_THAT(TU.build().getDiagnostics(),
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ElementsAre(::testing::AllOf(
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Diag(Test.range(), "'not-found.h' file not found"),
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DiagSource(Diag::Clang), DiagName("pp_file_not_found"))));
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}
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TEST(DiagnosticsTest, DeduplicatedClangTidyDiagnostics) {
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Annotations Test(R"cpp(
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float foo = [[0.1f]];
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)cpp");
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auto TU = TestTU::withCode(Test.code());
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// Enable alias clang-tidy checks, these check emits the same diagnostics
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// (except the check name).
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TU.ClangTidyChecks = "-*, readability-uppercase-literal-suffix, "
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"hicpp-uppercase-literal-suffix";
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// Verify that we filter out the duplicated diagnostic message.
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EXPECT_THAT(
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TU.build().getDiagnostics(),
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UnorderedElementsAre(::testing::AllOf(
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Diag(Test.range(),
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"floating point literal has suffix 'f', which is not uppercase"),
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DiagSource(Diag::ClangTidy))));
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Test = Annotations(R"cpp(
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template<typename T>
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void func(T) {
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float f = [[0.3f]];
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}
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void k() {
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func(123);
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func(2.0);
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}
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)cpp");
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TU.Code = Test.code();
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// The check doesn't handle template instantiations which ends up emitting
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// duplicated messages, verify that we deduplicate them.
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EXPECT_THAT(
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TU.build().getDiagnostics(),
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UnorderedElementsAre(::testing::AllOf(
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Diag(Test.range(),
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"floating point literal has suffix 'f', which is not uppercase"),
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DiagSource(Diag::ClangTidy))));
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}
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TEST(DiagnosticsTest, ClangTidy) {
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Annotations Test(R"cpp(
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#include $deprecated[["assert.h"]]
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#define $macrodef[[SQUARE]](X) (X)*(X)
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int $main[[main]]() {
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int y = 4;
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return SQUARE($macroarg[[++]]y);
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return $doubled[[sizeof]](sizeof(int));
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}
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)cpp");
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auto TU = TestTU::withCode(Test.code());
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TU.HeaderFilename = "assert.h"; // Suppress "not found" error.
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TU.ClangTidyChecks =
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"-*, bugprone-sizeof-expression, bugprone-macro-repeated-side-effects, "
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"modernize-deprecated-headers, modernize-use-trailing-return-type";
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EXPECT_THAT(
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TU.build().getDiagnostics(),
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UnorderedElementsAre(
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AllOf(Diag(Test.range("deprecated"),
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"inclusion of deprecated C++ header 'assert.h'; consider "
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"using 'cassert' instead"),
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DiagSource(Diag::ClangTidy),
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DiagName("modernize-deprecated-headers"),
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WithFix(Fix(Test.range("deprecated"), "<cassert>",
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"change '\"assert.h\"' to '<cassert>'"))),
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Diag(Test.range("doubled"),
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"suspicious usage of 'sizeof(sizeof(...))'"),
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AllOf(
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Diag(Test.range("macroarg"),
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"side effects in the 1st macro argument 'X' are repeated in "
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"macro expansion"),
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DiagSource(Diag::ClangTidy),
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DiagName("bugprone-macro-repeated-side-effects"),
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WithNote(
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Diag(Test.range("macrodef"), "macro 'SQUARE' defined here"))),
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Diag(Test.range("macroarg"),
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"multiple unsequenced modifications to 'y'"),
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AllOf(
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Diag(Test.range("main"),
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"use a trailing return type for this function"),
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DiagSource(Diag::ClangTidy),
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DiagName("modernize-use-trailing-return-type"),
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// Verify that we don't have "[check-name]" suffix in the message.
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WithFix(FixMessage("use a trailing return type for this function")))
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));
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}
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TEST(DiagnosticTest, ClangTidySuppressionComment) {
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Annotations Main(R"cpp(
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int main() {
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int i = 3;
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double d = 8 / i; // NOLINT
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// NOLINTNEXTLINE
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double e = 8 / i;
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double f = [[8]] / i;
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}
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)cpp");
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TestTU TU = TestTU::withCode(Main.code());
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TU.ClangTidyChecks = "bugprone-integer-division";
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EXPECT_THAT(
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TU.build().getDiagnostics(),
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UnorderedElementsAre(::testing::AllOf(
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Diag(Main.range(), "result of integer division used in a floating "
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"point context; possible loss of precision"),
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DiagSource(Diag::ClangTidy), DiagName("bugprone-integer-division"))));
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}
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TEST(DiagnosticTest, ClangTidyWarningAsError) {
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Annotations Main(R"cpp(
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int main() {
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int i = 3;
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double f = [[8]] / i;
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}
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)cpp");
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TestTU TU = TestTU::withCode(Main.code());
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TU.ClangTidyChecks = "bugprone-integer-division";
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TU.ClangTidyWarningsAsErrors = "bugprone-integer-division";
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EXPECT_THAT(
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TU.build().getDiagnostics(),
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UnorderedElementsAre(::testing::AllOf(
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Diag(Main.range(), "result of integer division used in a floating "
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"point context; possible loss of precision"),
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DiagSource(Diag::ClangTidy), DiagName("bugprone-integer-division"),
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DiagSeverity(DiagnosticsEngine::Error))));
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}
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TEST(DiagnosticTest, LongFixMessages) {
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// We limit the size of printed code.
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Annotations Source(R"cpp(
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int main() {
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int somereallyreallyreallyreallyreallyreallyreallyreallylongidentifier;
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[[omereallyreallyreallyreallyreallyreallyreallyreallylongidentifier]]= 10;
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}
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)cpp");
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TestTU TU = TestTU::withCode(Source.code());
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EXPECT_THAT(
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TU.build().getDiagnostics(),
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ElementsAre(WithFix(Fix(
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Source.range(),
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"somereallyreallyreallyreallyreallyreallyreallyreallylongidentifier",
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"change 'omereallyreallyreallyreallyreallyreallyreallyreall…' to "
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"'somereallyreallyreallyreallyreallyreallyreallyreal…'"))));
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// Only show changes up to a first newline.
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Source = Annotations(R"cpp(
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int main() {
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int ident;
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[[ide\
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n]] = 10;
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}
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)cpp");
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TU = TestTU::withCode(Source.code());
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EXPECT_THAT(TU.build().getDiagnostics(),
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ElementsAre(WithFix(
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Fix(Source.range(), "ident", "change 'ide\\…' to 'ident'"))));
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}
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TEST(DiagnosticTest, ClangTidyWarningAsErrorTrumpsSuppressionComment) {
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Annotations Main(R"cpp(
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int main() {
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int i = 3;
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double f = [[8]] / i; // NOLINT
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}
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)cpp");
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TestTU TU = TestTU::withCode(Main.code());
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TU.ClangTidyChecks = "bugprone-integer-division";
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TU.ClangTidyWarningsAsErrors = "bugprone-integer-division";
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EXPECT_THAT(
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TU.build().getDiagnostics(),
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UnorderedElementsAre(::testing::AllOf(
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Diag(Main.range(), "result of integer division used in a floating "
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"point context; possible loss of precision"),
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DiagSource(Diag::ClangTidy), DiagName("bugprone-integer-division"),
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DiagSeverity(DiagnosticsEngine::Error))));
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}
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TEST(DiagnosticsTest, Preprocessor) {
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// This looks like a preamble, but there's an #else in the middle!
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// Check that:
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// - the #else doesn't generate diagnostics (we had this bug)
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// - we get diagnostics from the taken branch
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// - we get no diagnostics from the not taken branch
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Annotations Test(R"cpp(
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#ifndef FOO
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#define FOO
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int a = [[b]];
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#else
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int x = y;
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#endif
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)cpp");
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EXPECT_THAT(
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TestTU::withCode(Test.code()).build().getDiagnostics(),
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ElementsAre(Diag(Test.range(), "use of undeclared identifier 'b'")));
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}
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TEST(DiagnosticsTest, InsideMacros) {
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Annotations Test(R"cpp(
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#define TEN 10
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#define RET(x) return x + 10
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int* foo() {
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RET($foo[[0]]);
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}
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int* bar() {
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return $bar[[TEN]];
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}
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)cpp");
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EXPECT_THAT(TestTU::withCode(Test.code()).build().getDiagnostics(),
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ElementsAre(Diag(Test.range("foo"),
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"cannot initialize return object of type "
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"'int *' with an rvalue of type 'int'"),
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Diag(Test.range("bar"),
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"cannot initialize return object of type "
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"'int *' with an rvalue of type 'int'")));
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}
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TEST(DiagnosticsTest, NoFixItInMacro) {
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Annotations Test(R"cpp(
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#define Define(name) void name() {}
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[[Define]](main)
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)cpp");
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auto TU = TestTU::withCode(Test.code());
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EXPECT_THAT(TU.build().getDiagnostics(),
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ElementsAre(AllOf(Diag(Test.range(), "'main' must return 'int'"),
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Not(WithFix(_)))));
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}
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TEST(DiagnosticsTest, ToLSP) {
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URIForFile MainFile =
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URIForFile::canonicalize(testPath("foo/bar/main.cpp"), "");
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URIForFile HeaderFile =
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URIForFile::canonicalize(testPath("foo/bar/header.h"), "");
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clangd::Diag D;
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D.ID = clang::diag::err_enum_class_reference;
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D.Name = "enum_class_reference";
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D.Source = clangd::Diag::Clang;
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D.Message = "something terrible happened";
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D.Range = {pos(1, 2), pos(3, 4)};
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D.InsideMainFile = true;
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D.Severity = DiagnosticsEngine::Error;
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D.File = "foo/bar/main.cpp";
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D.AbsFile = MainFile.file();
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clangd::Note NoteInMain;
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NoteInMain.Message = "declared somewhere in the main file";
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NoteInMain.Range = {pos(5, 6), pos(7, 8)};
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NoteInMain.Severity = DiagnosticsEngine::Remark;
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NoteInMain.File = "../foo/bar/main.cpp";
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NoteInMain.InsideMainFile = true;
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NoteInMain.AbsFile = MainFile.file();
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D.Notes.push_back(NoteInMain);
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clangd::Note NoteInHeader;
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NoteInHeader.Message = "declared somewhere in the header file";
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NoteInHeader.Range = {pos(9, 10), pos(11, 12)};
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NoteInHeader.Severity = DiagnosticsEngine::Note;
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NoteInHeader.File = "../foo/baz/header.h";
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NoteInHeader.InsideMainFile = false;
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NoteInHeader.AbsFile = HeaderFile.file();
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D.Notes.push_back(NoteInHeader);
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clangd::Fix F;
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F.Message = "do something";
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D.Fixes.push_back(F);
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// Diagnostics should turn into these:
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clangd::Diagnostic MainLSP;
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MainLSP.range = D.Range;
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MainLSP.severity = getSeverity(DiagnosticsEngine::Error);
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MainLSP.code = "enum_class_reference";
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MainLSP.source = "clang";
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MainLSP.message =
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R"(Something terrible happened (fix available)
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main.cpp:6:7: remark: declared somewhere in the main file
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../foo/baz/header.h:10:11:
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note: declared somewhere in the header file)";
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clangd::Diagnostic NoteInMainLSP;
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NoteInMainLSP.range = NoteInMain.Range;
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NoteInMainLSP.severity = getSeverity(DiagnosticsEngine::Remark);
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NoteInMainLSP.message = R"(Declared somewhere in the main file
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main.cpp:2:3: error: something terrible happened)";
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ClangdDiagnosticOptions Opts;
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// Transform diagnostics and check the results.
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std::vector<std::pair<clangd::Diagnostic, std::vector<clangd::Fix>>> LSPDiags;
|
|
toLSPDiags(D, MainFile, Opts,
|
|
[&](clangd::Diagnostic LSPDiag, ArrayRef<clangd::Fix> Fixes) {
|
|
LSPDiags.push_back(
|
|
{std::move(LSPDiag),
|
|
std::vector<clangd::Fix>(Fixes.begin(), Fixes.end())});
|
|
});
|
|
|
|
EXPECT_THAT(
|
|
LSPDiags,
|
|
ElementsAre(Pair(EqualToLSPDiag(MainLSP), ElementsAre(EqualToFix(F))),
|
|
Pair(EqualToLSPDiag(NoteInMainLSP), IsEmpty())));
|
|
EXPECT_EQ(LSPDiags[0].first.code, "enum_class_reference");
|
|
EXPECT_EQ(LSPDiags[0].first.source, "clang");
|
|
EXPECT_EQ(LSPDiags[1].first.code, "");
|
|
EXPECT_EQ(LSPDiags[1].first.source, "");
|
|
|
|
// Same thing, but don't flatten notes into the main list.
|
|
LSPDiags.clear();
|
|
Opts.EmitRelatedLocations = true;
|
|
toLSPDiags(D, MainFile, Opts,
|
|
[&](clangd::Diagnostic LSPDiag, ArrayRef<clangd::Fix> Fixes) {
|
|
LSPDiags.push_back(
|
|
{std::move(LSPDiag),
|
|
std::vector<clangd::Fix>(Fixes.begin(), Fixes.end())});
|
|
});
|
|
MainLSP.message = "Something terrible happened (fix available)";
|
|
DiagnosticRelatedInformation NoteInMainDRI;
|
|
NoteInMainDRI.message = "Declared somewhere in the main file";
|
|
NoteInMainDRI.location.range = NoteInMain.Range;
|
|
NoteInMainDRI.location.uri = MainFile;
|
|
MainLSP.relatedInformation = {NoteInMainDRI};
|
|
DiagnosticRelatedInformation NoteInHeaderDRI;
|
|
NoteInHeaderDRI.message = "Declared somewhere in the header file";
|
|
NoteInHeaderDRI.location.range = NoteInHeader.Range;
|
|
NoteInHeaderDRI.location.uri = HeaderFile;
|
|
MainLSP.relatedInformation = {NoteInMainDRI, NoteInHeaderDRI};
|
|
EXPECT_THAT(LSPDiags, ElementsAre(Pair(EqualToLSPDiag(MainLSP),
|
|
ElementsAre(EqualToFix(F)))));
|
|
}
|
|
|
|
struct SymbolWithHeader {
|
|
std::string QName;
|
|
std::string DeclaringFile;
|
|
std::string IncludeHeader;
|
|
};
|
|
|
|
std::unique_ptr<SymbolIndex>
|
|
buildIndexWithSymbol(llvm::ArrayRef<SymbolWithHeader> Syms) {
|
|
SymbolSlab::Builder Slab;
|
|
for (const auto &S : Syms) {
|
|
Symbol Sym = cls(S.QName);
|
|
Sym.Flags |= Symbol::IndexedForCodeCompletion;
|
|
Sym.CanonicalDeclaration.FileURI = S.DeclaringFile.c_str();
|
|
Sym.Definition.FileURI = S.DeclaringFile.c_str();
|
|
Sym.IncludeHeaders.emplace_back(S.IncludeHeader, 1);
|
|
Slab.insert(Sym);
|
|
}
|
|
return MemIndex::build(std::move(Slab).build(), RefSlab(), RelationSlab());
|
|
}
|
|
|
|
TEST(IncludeFixerTest, IncompleteType) {
|
|
Annotations Test(R"cpp(
|
|
$insert[[]]namespace ns {
|
|
class X;
|
|
$nested[[X::]]Nested n;
|
|
}
|
|
class Y : $base[[public ns::X]] {};
|
|
int main() {
|
|
ns::X *x;
|
|
x$access[[->]]f();
|
|
}
|
|
)cpp");
|
|
auto TU = TestTU::withCode(Test.code());
|
|
auto Index = buildIndexWithSymbol(
|
|
{SymbolWithHeader{"ns::X", "unittest:///x.h", "\"x.h\""}});
|
|
TU.ExternalIndex = Index.get();
|
|
|
|
EXPECT_THAT(
|
|
TU.build().getDiagnostics(),
|
|
UnorderedElementsAre(
|
|
AllOf(Diag(Test.range("nested"),
|
|
"incomplete type 'ns::X' named in nested name specifier"),
|
|
WithFix(Fix(Test.range("insert"), "#include \"x.h\"\n",
|
|
"Add include \"x.h\" for symbol ns::X"))),
|
|
AllOf(Diag(Test.range("base"), "base class has incomplete type"),
|
|
WithFix(Fix(Test.range("insert"), "#include \"x.h\"\n",
|
|
"Add include \"x.h\" for symbol ns::X"))),
|
|
AllOf(Diag(Test.range("access"),
|
|
"member access into incomplete type 'ns::X'"),
|
|
WithFix(Fix(Test.range("insert"), "#include \"x.h\"\n",
|
|
"Add include \"x.h\" for symbol ns::X")))));
|
|
}
|
|
|
|
TEST(IncludeFixerTest, NoSuggestIncludeWhenNoDefinitionInHeader) {
|
|
Annotations Test(R"cpp(
|
|
$insert[[]]namespace ns {
|
|
class X;
|
|
}
|
|
class Y : $base[[public ns::X]] {};
|
|
int main() {
|
|
ns::X *x;
|
|
x$access[[->]]f();
|
|
}
|
|
)cpp");
|
|
auto TU = TestTU::withCode(Test.code());
|
|
Symbol Sym = cls("ns::X");
|
|
Sym.Flags |= Symbol::IndexedForCodeCompletion;
|
|
Sym.CanonicalDeclaration.FileURI = "unittest:///x.h";
|
|
Sym.Definition.FileURI = "unittest:///x.cc";
|
|
Sym.IncludeHeaders.emplace_back("\"x.h\"", 1);
|
|
|
|
SymbolSlab::Builder Slab;
|
|
Slab.insert(Sym);
|
|
auto Index =
|
|
MemIndex::build(std::move(Slab).build(), RefSlab(), RelationSlab());
|
|
TU.ExternalIndex = Index.get();
|
|
|
|
EXPECT_THAT(TU.build().getDiagnostics(),
|
|
UnorderedElementsAre(
|
|
Diag(Test.range("base"), "base class has incomplete type"),
|
|
Diag(Test.range("access"),
|
|
"member access into incomplete type 'ns::X'")));
|
|
}
|
|
|
|
TEST(IncludeFixerTest, Typo) {
|
|
Annotations Test(R"cpp(
|
|
$insert[[]]namespace ns {
|
|
void foo() {
|
|
$unqualified1[[X]] x;
|
|
// No fix if the unresolved type is used as specifier. (ns::)X::Nested will be
|
|
// considered the unresolved type.
|
|
$unqualified2[[X]]::Nested n;
|
|
}
|
|
}
|
|
void bar() {
|
|
ns::$qualified1[[X]] x; // ns:: is valid.
|
|
ns::$qualified2[[X]](); // Error: no member in namespace
|
|
|
|
::$global[[Global]] glob;
|
|
}
|
|
)cpp");
|
|
auto TU = TestTU::withCode(Test.code());
|
|
auto Index = buildIndexWithSymbol(
|
|
{SymbolWithHeader{"ns::X", "unittest:///x.h", "\"x.h\""},
|
|
SymbolWithHeader{"Global", "unittest:///global.h", "\"global.h\""}});
|
|
TU.ExternalIndex = Index.get();
|
|
|
|
EXPECT_THAT(
|
|
TU.build().getDiagnostics(),
|
|
UnorderedElementsAre(
|
|
AllOf(Diag(Test.range("unqualified1"), "unknown type name 'X'"),
|
|
WithFix(Fix(Test.range("insert"), "#include \"x.h\"\n",
|
|
"Add include \"x.h\" for symbol ns::X"))),
|
|
Diag(Test.range("unqualified2"), "use of undeclared identifier 'X'"),
|
|
AllOf(Diag(Test.range("qualified1"),
|
|
"no type named 'X' in namespace 'ns'"),
|
|
WithFix(Fix(Test.range("insert"), "#include \"x.h\"\n",
|
|
"Add include \"x.h\" for symbol ns::X"))),
|
|
AllOf(Diag(Test.range("qualified2"),
|
|
"no member named 'X' in namespace 'ns'"),
|
|
WithFix(Fix(Test.range("insert"), "#include \"x.h\"\n",
|
|
"Add include \"x.h\" for symbol ns::X"))),
|
|
AllOf(Diag(Test.range("global"),
|
|
"no type named 'Global' in the global namespace"),
|
|
WithFix(Fix(Test.range("insert"), "#include \"global.h\"\n",
|
|
"Add include \"global.h\" for symbol Global")))));
|
|
}
|
|
|
|
TEST(IncludeFixerTest, MultipleMatchedSymbols) {
|
|
Annotations Test(R"cpp(
|
|
$insert[[]]namespace na {
|
|
namespace nb {
|
|
void foo() {
|
|
$unqualified[[X]] x;
|
|
}
|
|
}
|
|
}
|
|
)cpp");
|
|
auto TU = TestTU::withCode(Test.code());
|
|
auto Index = buildIndexWithSymbol(
|
|
{SymbolWithHeader{"na::X", "unittest:///a.h", "\"a.h\""},
|
|
SymbolWithHeader{"na::nb::X", "unittest:///b.h", "\"b.h\""}});
|
|
TU.ExternalIndex = Index.get();
|
|
|
|
EXPECT_THAT(TU.build().getDiagnostics(),
|
|
UnorderedElementsAre(AllOf(
|
|
Diag(Test.range("unqualified"), "unknown type name 'X'"),
|
|
WithFix(Fix(Test.range("insert"), "#include \"a.h\"\n",
|
|
"Add include \"a.h\" for symbol na::X"),
|
|
Fix(Test.range("insert"), "#include \"b.h\"\n",
|
|
"Add include \"b.h\" for symbol na::nb::X")))));
|
|
}
|
|
|
|
TEST(IncludeFixerTest, NoCrashMemebrAccess) {
|
|
Annotations Test(R"cpp(
|
|
struct X { int xyz; };
|
|
void g() { X x; x.$[[xy]] }
|
|
)cpp");
|
|
auto TU = TestTU::withCode(Test.code());
|
|
auto Index = buildIndexWithSymbol(
|
|
SymbolWithHeader{"na::X", "unittest:///a.h", "\"a.h\""});
|
|
TU.ExternalIndex = Index.get();
|
|
|
|
EXPECT_THAT(
|
|
TU.build().getDiagnostics(),
|
|
UnorderedElementsAre(Diag(Test.range(), "no member named 'xy' in 'X'")));
|
|
}
|
|
|
|
TEST(IncludeFixerTest, UseCachedIndexResults) {
|
|
// As index results for the identical request are cached, more than 5 fixes
|
|
// are generated.
|
|
Annotations Test(R"cpp(
|
|
$insert[[]]void foo() {
|
|
$x1[[X]] x;
|
|
$x2[[X]] x;
|
|
$x3[[X]] x;
|
|
$x4[[X]] x;
|
|
$x5[[X]] x;
|
|
$x6[[X]] x;
|
|
$x7[[X]] x;
|
|
}
|
|
|
|
class X;
|
|
void bar(X *x) {
|
|
x$a1[[->]]f();
|
|
x$a2[[->]]f();
|
|
x$a3[[->]]f();
|
|
x$a4[[->]]f();
|
|
x$a5[[->]]f();
|
|
x$a6[[->]]f();
|
|
x$a7[[->]]f();
|
|
}
|
|
)cpp");
|
|
auto TU = TestTU::withCode(Test.code());
|
|
auto Index =
|
|
buildIndexWithSymbol(SymbolWithHeader{"X", "unittest:///a.h", "\"a.h\""});
|
|
TU.ExternalIndex = Index.get();
|
|
|
|
auto Parsed = TU.build();
|
|
for (const auto &D : Parsed.getDiagnostics()) {
|
|
if (D.Fixes.size() != 1) {
|
|
ADD_FAILURE() << "D.Fixes.size() != 1";
|
|
continue;
|
|
}
|
|
EXPECT_EQ(D.Fixes[0].Message,
|
|
std::string("Add include \"a.h\" for symbol X"));
|
|
}
|
|
}
|
|
|
|
TEST(IncludeFixerTest, UnresolvedNameAsSpecifier) {
|
|
Annotations Test(R"cpp(
|
|
$insert[[]]namespace ns {
|
|
}
|
|
void g() { ns::$[[scope]]::X_Y(); }
|
|
)cpp");
|
|
TestTU TU;
|
|
TU.Code = Test.code();
|
|
// FIXME: Figure out why this is needed and remove it, PR43662.
|
|
TU.ExtraArgs.push_back("-fno-ms-compatibility");
|
|
auto Index = buildIndexWithSymbol(
|
|
SymbolWithHeader{"ns::scope::X_Y", "unittest:///x.h", "\"x.h\""});
|
|
TU.ExternalIndex = Index.get();
|
|
|
|
EXPECT_THAT(
|
|
TU.build().getDiagnostics(),
|
|
UnorderedElementsAre(AllOf(
|
|
Diag(Test.range(), "no member named 'scope' in namespace 'ns'"),
|
|
WithFix(Fix(Test.range("insert"), "#include \"x.h\"\n",
|
|
"Add include \"x.h\" for symbol ns::scope::X_Y")))));
|
|
}
|
|
|
|
TEST(IncludeFixerTest, UnresolvedSpecifierWithSemaCorrection) {
|
|
Annotations Test(R"cpp(
|
|
$insert[[]]namespace clang {
|
|
void f() {
|
|
// "clangd::" will be corrected to "clang::" by Sema.
|
|
$q1[[clangd]]::$x[[X]] x;
|
|
$q2[[clangd]]::$ns[[ns]]::Y y;
|
|
}
|
|
}
|
|
)cpp");
|
|
TestTU TU;
|
|
TU.Code = Test.code();
|
|
// FIXME: Figure out why this is needed and remove it, PR43662.
|
|
TU.ExtraArgs.push_back("-fno-ms-compatibility");
|
|
auto Index = buildIndexWithSymbol(
|
|
{SymbolWithHeader{"clang::clangd::X", "unittest:///x.h", "\"x.h\""},
|
|
SymbolWithHeader{"clang::clangd::ns::Y", "unittest:///y.h", "\"y.h\""}});
|
|
TU.ExternalIndex = Index.get();
|
|
|
|
EXPECT_THAT(
|
|
TU.build().getDiagnostics(),
|
|
UnorderedElementsAre(
|
|
AllOf(
|
|
Diag(Test.range("q1"), "use of undeclared identifier 'clangd'; "
|
|
"did you mean 'clang'?"),
|
|
WithFix(_, // change clangd to clang
|
|
Fix(Test.range("insert"), "#include \"x.h\"\n",
|
|
"Add include \"x.h\" for symbol clang::clangd::X"))),
|
|
AllOf(
|
|
Diag(Test.range("x"), "no type named 'X' in namespace 'clang'"),
|
|
WithFix(Fix(Test.range("insert"), "#include \"x.h\"\n",
|
|
"Add include \"x.h\" for symbol clang::clangd::X"))),
|
|
AllOf(
|
|
Diag(Test.range("q2"), "use of undeclared identifier 'clangd'; "
|
|
"did you mean 'clang'?"),
|
|
WithFix(
|
|
_, // change clangd to clangd
|
|
Fix(Test.range("insert"), "#include \"y.h\"\n",
|
|
"Add include \"y.h\" for symbol clang::clangd::ns::Y"))),
|
|
AllOf(Diag(Test.range("ns"),
|
|
"no member named 'ns' in namespace 'clang'"),
|
|
WithFix(Fix(
|
|
Test.range("insert"), "#include \"y.h\"\n",
|
|
"Add include \"y.h\" for symbol clang::clangd::ns::Y")))));
|
|
}
|
|
|
|
TEST(IncludeFixerTest, SpecifiedScopeIsNamespaceAlias) {
|
|
Annotations Test(R"cpp(
|
|
$insert[[]]namespace a {}
|
|
namespace b = a;
|
|
namespace c {
|
|
b::$[[X]] x;
|
|
}
|
|
)cpp");
|
|
auto TU = TestTU::withCode(Test.code());
|
|
auto Index = buildIndexWithSymbol(
|
|
SymbolWithHeader{"a::X", "unittest:///x.h", "\"x.h\""});
|
|
TU.ExternalIndex = Index.get();
|
|
|
|
EXPECT_THAT(TU.build().getDiagnostics(),
|
|
UnorderedElementsAre(AllOf(
|
|
Diag(Test.range(), "no type named 'X' in namespace 'a'"),
|
|
WithFix(Fix(Test.range("insert"), "#include \"x.h\"\n",
|
|
"Add include \"x.h\" for symbol a::X")))));
|
|
}
|
|
|
|
TEST(IncludeFixerTest, NoCrashOnTemplateInstantiations) {
|
|
Annotations Test(R"cpp(
|
|
template <typename T> struct Templ {
|
|
template <typename U>
|
|
typename U::type operator=(const U &);
|
|
};
|
|
|
|
struct A {
|
|
Templ<char> s;
|
|
A() { [[a]]; } // this caused crashes if we compute scopes lazily.
|
|
};
|
|
)cpp");
|
|
|
|
auto TU = TestTU::withCode(Test.code());
|
|
auto Index = buildIndexWithSymbol({});
|
|
TU.ExternalIndex = Index.get();
|
|
|
|
EXPECT_THAT(TU.build().getDiagnostics(),
|
|
ElementsAre(Diag(Test.range(), "use of undeclared identifier 'a'")));
|
|
}
|
|
|
|
TEST(DiagsInHeaders, DiagInsideHeader) {
|
|
Annotations Main(R"cpp(
|
|
#include [["a.h"]]
|
|
void foo() {})cpp");
|
|
Annotations Header("[[no_type_spec]];");
|
|
TestTU TU = TestTU::withCode(Main.code());
|
|
TU.AdditionalFiles = {{"a.h", Header.code()}};
|
|
EXPECT_THAT(TU.build().getDiagnostics(),
|
|
UnorderedElementsAre(AllOf(
|
|
Diag(Main.range(), "in included file: C++ requires a "
|
|
"type specifier for all declarations"),
|
|
WithNote(Diag(Header.range(), "error occurred here")))));
|
|
}
|
|
|
|
TEST(DiagsInHeaders, DiagInTransitiveInclude) {
|
|
Annotations Main(R"cpp(
|
|
#include [["a.h"]]
|
|
void foo() {})cpp");
|
|
TestTU TU = TestTU::withCode(Main.code());
|
|
TU.AdditionalFiles = {{"a.h", "#include \"b.h\""}, {"b.h", "no_type_spec;"}};
|
|
EXPECT_THAT(TU.build().getDiagnostics(),
|
|
UnorderedElementsAre(
|
|
Diag(Main.range(), "in included file: C++ requires a "
|
|
"type specifier for all declarations")));
|
|
}
|
|
|
|
TEST(DiagsInHeaders, DiagInMultipleHeaders) {
|
|
Annotations Main(R"cpp(
|
|
#include $a[["a.h"]]
|
|
#include $b[["b.h"]]
|
|
void foo() {})cpp");
|
|
TestTU TU = TestTU::withCode(Main.code());
|
|
TU.AdditionalFiles = {{"a.h", "no_type_spec;"}, {"b.h", "no_type_spec;"}};
|
|
EXPECT_THAT(TU.build().getDiagnostics(),
|
|
UnorderedElementsAre(
|
|
Diag(Main.range("a"), "in included file: C++ requires a type "
|
|
"specifier for all declarations"),
|
|
Diag(Main.range("b"), "in included file: C++ requires a type "
|
|
"specifier for all declarations")));
|
|
}
|
|
|
|
TEST(DiagsInHeaders, PreferExpansionLocation) {
|
|
Annotations Main(R"cpp(
|
|
#include [["a.h"]]
|
|
#include "b.h"
|
|
void foo() {})cpp");
|
|
TestTU TU = TestTU::withCode(Main.code());
|
|
TU.AdditionalFiles = {{"a.h", "#include \"b.h\"\n"},
|
|
{"b.h", "#ifndef X\n#define X\nno_type_spec;\n#endif"}};
|
|
EXPECT_THAT(TU.build().getDiagnostics(),
|
|
UnorderedElementsAre(Diag(Main.range(),
|
|
"in included file: C++ requires a type "
|
|
"specifier for all declarations")));
|
|
}
|
|
|
|
TEST(DiagsInHeaders, PreferExpansionLocationMacros) {
|
|
Annotations Main(R"cpp(
|
|
#define X
|
|
#include "a.h"
|
|
#undef X
|
|
#include [["b.h"]]
|
|
void foo() {})cpp");
|
|
TestTU TU = TestTU::withCode(Main.code());
|
|
TU.AdditionalFiles = {{"a.h", "#include \"c.h\"\n"},
|
|
{"b.h", "#include \"c.h\"\n"},
|
|
{"c.h", "#ifndef X\n#define X\nno_type_spec;\n#endif"}};
|
|
EXPECT_THAT(TU.build().getDiagnostics(),
|
|
UnorderedElementsAre(
|
|
Diag(Main.range(), "in included file: C++ requires a "
|
|
"type specifier for all declarations")));
|
|
}
|
|
|
|
TEST(DiagsInHeaders, LimitDiagsOutsideMainFile) {
|
|
Annotations Main(R"cpp(
|
|
#include [["a.h"]]
|
|
#include "b.h"
|
|
void foo() {})cpp");
|
|
TestTU TU = TestTU::withCode(Main.code());
|
|
TU.AdditionalFiles = {{"a.h", "#include \"c.h\"\n"},
|
|
{"b.h", "#include \"c.h\"\n"},
|
|
{"c.h", R"cpp(
|
|
#ifndef X
|
|
#define X
|
|
no_type_spec_0;
|
|
no_type_spec_1;
|
|
no_type_spec_2;
|
|
no_type_spec_3;
|
|
no_type_spec_4;
|
|
no_type_spec_5;
|
|
no_type_spec_6;
|
|
no_type_spec_7;
|
|
no_type_spec_8;
|
|
no_type_spec_9;
|
|
no_type_spec_10;
|
|
#endif)cpp"}};
|
|
EXPECT_THAT(TU.build().getDiagnostics(),
|
|
UnorderedElementsAre(
|
|
Diag(Main.range(), "in included file: C++ requires a "
|
|
"type specifier for all declarations")));
|
|
}
|
|
|
|
TEST(DiagsInHeaders, OnlyErrorOrFatal) {
|
|
Annotations Main(R"cpp(
|
|
#include [["a.h"]]
|
|
void foo() {})cpp");
|
|
Annotations Header(R"cpp(
|
|
[[no_type_spec]];
|
|
int x = 5/0;)cpp");
|
|
TestTU TU = TestTU::withCode(Main.code());
|
|
TU.AdditionalFiles = {{"a.h", Header.code()}};
|
|
EXPECT_THAT(TU.build().getDiagnostics(),
|
|
UnorderedElementsAre(AllOf(
|
|
Diag(Main.range(), "in included file: C++ requires "
|
|
"a type specifier for all declarations"),
|
|
WithNote(Diag(Header.range(), "error occurred here")))));
|
|
}
|
|
|
|
TEST(DiagsInHeaders, FromNonWrittenSources) {
|
|
Annotations Main(R"cpp(
|
|
#include [["a.h"]]
|
|
void foo() {})cpp");
|
|
Annotations Header(R"cpp(
|
|
int x = 5/0;
|
|
int b = [[FOO]];)cpp");
|
|
TestTU TU = TestTU::withCode(Main.code());
|
|
TU.AdditionalFiles = {{"a.h", Header.code()}};
|
|
TU.ExtraArgs = {"-DFOO=NOOO"};
|
|
EXPECT_THAT(TU.build().getDiagnostics(),
|
|
UnorderedElementsAre(AllOf(
|
|
Diag(Main.range(),
|
|
"in included file: use of undeclared identifier 'NOOO'"),
|
|
WithNote(Diag(Header.range(), "error occurred here")))));
|
|
}
|
|
|
|
TEST(DiagsInHeaders, ErrorFromMacroExpansion) {
|
|
Annotations Main(R"cpp(
|
|
void bar() {
|
|
int fo;
|
|
#include [["a.h"]]
|
|
})cpp");
|
|
Annotations Header(R"cpp(
|
|
#define X foo
|
|
X;)cpp");
|
|
TestTU TU = TestTU::withCode(Main.code());
|
|
TU.AdditionalFiles = {{"a.h", Header.code()}};
|
|
EXPECT_THAT(TU.build().getDiagnostics(),
|
|
UnorderedElementsAre(
|
|
Diag(Main.range(), "in included file: use of undeclared "
|
|
"identifier 'foo'; did you mean 'fo'?")));
|
|
}
|
|
|
|
TEST(DiagsInHeaders, ErrorFromMacroArgument) {
|
|
Annotations Main(R"cpp(
|
|
void bar() {
|
|
int fo;
|
|
#include [["a.h"]]
|
|
})cpp");
|
|
Annotations Header(R"cpp(
|
|
#define X(arg) arg
|
|
X(foo);)cpp");
|
|
TestTU TU = TestTU::withCode(Main.code());
|
|
TU.AdditionalFiles = {{"a.h", Header.code()}};
|
|
EXPECT_THAT(TU.build().getDiagnostics(),
|
|
UnorderedElementsAre(
|
|
Diag(Main.range(), "in included file: use of undeclared "
|
|
"identifier 'foo'; did you mean 'fo'?")));
|
|
}
|
|
|
|
TEST(IgnoreDiags, FromNonWrittenInclude) {
|
|
TestTU TU;
|
|
TU.ExtraArgs.push_back("--include=a.h");
|
|
TU.AdditionalFiles = {{"a.h", "void main();"}};
|
|
// The diagnostic "main must return int" is from the header, we don't attempt
|
|
// to render it in the main file as there is no written location there.
|
|
EXPECT_THAT(TU.build().getDiagnostics(), UnorderedElementsAre());
|
|
}
|
|
|
|
} // namespace
|
|
} // namespace clangd
|
|
} // namespace clang
|