79d19bdf81
Summary: Adds Semantic Ranges capabilities to Clangd server. Also adds tests for running it via clangd server. This differs from the LSP spec as the spec needs this to be evaluated on multiple 'pos' and the expected output is an list of list of semantic ranges. This is majorly for multi cursor and assuming this is a rare thing, we don't want to optimize make things complicated just for this. This should be done in the LSP level by queueing one request per 'pos' in the input. LSP Spec: https://github.com/microsoft/language-server-protocol/blob/dbaeumer/3.15/specification.md#textDocument_selectionRange Reviewers: hokein Subscribers: ilya-biryukov, MaskRay, jkorous, arphaman, kadircet, cfe-commits Tags: #clang Differential Revision: https://reviews.llvm.org/D67650 llvm-svn: 372102
182 lines
5.1 KiB
C++
182 lines
5.1 KiB
C++
//===-- SemanticSelectionTests.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 "ClangdServer.h"
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#include "Matchers.h"
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#include "Protocol.h"
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#include "SemanticSelection.h"
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#include "SourceCode.h"
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#include "SyncAPI.h"
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#include "TestFS.h"
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#include "TestTU.h"
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#include "clang/Basic/SourceLocation.h"
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#include "clang/Basic/SourceManager.h"
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#include "llvm/Support/Error.h"
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#include "gmock/gmock.h"
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#include "gtest/gtest.h"
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#include <vector>
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namespace clang {
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namespace clangd {
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namespace {
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using ::testing::ElementsAreArray;
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class IgnoreDiagnostics : public DiagnosticsConsumer {
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void onDiagnosticsReady(PathRef File,
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std::vector<Diag> Diagnostics) override {}
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};
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TEST(SemanticSelection, All) {
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const char *Tests[] = {
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R"cpp( // Single statement in a function body.
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[[void func() [[{
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[[[[int v = [[1^00]]]];]]
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}]]]]
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)cpp",
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R"cpp( // Expression
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[[void func() [[{
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int a = 1;
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// int v = (10 + 2) * (a + a);
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[[[[int v = [[[[([[[[10^]] + 2]])]] * (a + a)]]]];]]
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}]]]]
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)cpp",
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R"cpp( // Function call.
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int add(int x, int y) { return x + y; }
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[[void callee() [[{
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// int res = add(11, 22);
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[[[[int res = [[add([[1^1]], 22)]]]];]]
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}]]]]
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)cpp",
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R"cpp( // Tricky macros.
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#define MUL ) * (
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[[void func() [[{
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// int var = (4 + 15 MUL 6 + 10);
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[[[[int var = [[[[([[4 + [[1^5]]]] MUL]] 6 + 10)]]]];]]
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}]]]]
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)cpp",
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R"cpp( // Cursor inside a macro.
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#define HASH(x) ((x) % 10)
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[[void func() [[{
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[[[[int a = [[HASH([[[[2^3]] + 34]])]]]];]]
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}]]]]
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)cpp",
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R"cpp( // Cursor on a macro.
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#define HASH(x) ((x) % 10)
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[[void func() [[{
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[[[[int a = [[HA^SH(23)]]]];]]
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}]]]]
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)cpp",
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R"cpp( // Multiple declaration.
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[[void func() [[{
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[[[[int var1, var^2]], var3;]]
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}]]]]
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)cpp",
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R"cpp( // Before comment.
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[[void func() [[{
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int var1 = 1;
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[[[[int var2 = [[[[var1]]^ /*some comment*/ + 41]]]];]]
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}]]]]
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)cpp",
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// Empty file.
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"^",
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// FIXME: We should get the whole DeclStmt as a range.
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R"cpp( // Single statement in TU.
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[[int v = [[1^00]]]];
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)cpp",
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// FIXME: No node found associated to the position.
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R"cpp( // Cursor at end of VarDecl.
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void func() {
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int v = 100 + 100^;
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}
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)cpp",
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// FIXME: No node found associated to the position.
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R"cpp( // Cursor in between spaces.
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void func() {
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int v = 100 + ^ 100;
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}
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)cpp",
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// Structs.
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R"cpp(
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struct AAA { struct BBB { static int ccc(); };};
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[[void func() [[{
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// int x = AAA::BBB::ccc();
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[[[[int x = [[[[AAA::BBB::c^cc]]()]]]];]]
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}]]]]
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)cpp",
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R"cpp(
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struct AAA { struct BBB { static int ccc(); };};
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[[void func() [[{
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// int x = AAA::BBB::ccc();
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[[[[int x = [[[[[[[[[[AA^A]]::]]BBB::]]ccc]]()]]]];]]
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}]]]]
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)cpp",
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R"cpp( // Inside struct.
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struct A { static int a(); };
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[[struct B {
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[[static int b() [[{
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[[return [[[[1^1]] + 2]]]];
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}]]]]
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}]];
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)cpp",
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// Namespaces.
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R"cpp(
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[[namespace nsa {
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[[namespace nsb {
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static int ccc();
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[[void func() [[{
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// int x = nsa::nsb::ccc();
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[[[[int x = [[[[nsa::nsb::cc^c]]()]]]];]]
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}]]]]
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}]]
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}]]
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)cpp",
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};
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for (const char *Test : Tests) {
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auto T = Annotations(Test);
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auto AST = TestTU::withCode(T.code()).build();
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EXPECT_THAT(llvm::cantFail(getSemanticRanges(AST, T.point())),
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ElementsAreArray(T.ranges()))
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<< Test;
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}
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}
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TEST(SemanticSelection, RunViaClangDServer) {
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MockFSProvider FS;
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IgnoreDiagnostics DiagConsumer;
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MockCompilationDatabase CDB;
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ClangdServer Server(CDB, FS, DiagConsumer, ClangdServer::optsForTest());
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auto FooH = testPath("foo.h");
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FS.Files[FooH] = R"cpp(
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int foo(int x);
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#define HASH(x) ((x) % 10)
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)cpp";
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auto FooCpp = testPath("Foo.cpp");
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const char *SourceContents = R"cpp(
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#include "foo.h"
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[[void bar(int& inp) [[{
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// inp = HASH(foo(inp));
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[[inp = [[HASH([[foo([[in^p]])]])]]]];
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}]]]]
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)cpp";
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Annotations SourceAnnotations(SourceContents);
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FS.Files[FooCpp] = SourceAnnotations.code();
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Server.addDocument(FooCpp, SourceAnnotations.code());
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auto Ranges = runSemanticRanges(Server, FooCpp, SourceAnnotations.point());
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ASSERT_TRUE(bool(Ranges))
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<< "getSemanticRange returned an error: " << Ranges.takeError();
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EXPECT_THAT(*Ranges, ElementsAreArray(SourceAnnotations.ranges()));
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}
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} // namespace
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} // namespace clangd
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} // namespace clang
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