forked from OSchip/llvm-project
493 lines
13 KiB
C++
493 lines
13 KiB
C++
//=== unittests/Sema/CodeCompleteTest.cpp - Code Complete tests ==============//
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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 "clang/Frontend/CompilerInstance.h"
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#include "clang/Frontend/FrontendActions.h"
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#include "clang/Lex/Preprocessor.h"
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#include "clang/Parse/ParseAST.h"
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#include "clang/Sema/Sema.h"
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#include "clang/Sema/SemaDiagnostic.h"
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#include "clang/Tooling/Tooling.h"
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#include "llvm/Testing/Support/Annotations.h"
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#include "gmock/gmock.h"
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#include "gtest/gtest.h"
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#include <cstddef>
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#include <string>
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namespace {
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using namespace clang;
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using namespace clang::tooling;
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using ::testing::Each;
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using ::testing::UnorderedElementsAre;
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const char TestCCName[] = "test.cc";
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struct CompletionContext {
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std::vector<std::string> VisitedNamespaces;
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std::string PreferredType;
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// String representation of std::ptrdiff_t on a given platform. This is a hack
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// to properly account for different configurations of clang.
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std::string PtrDiffType;
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};
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class VisitedContextFinder : public CodeCompleteConsumer {
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public:
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VisitedContextFinder(CompletionContext &ResultCtx)
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: CodeCompleteConsumer(/*CodeCompleteOpts=*/{}), ResultCtx(ResultCtx),
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CCTUInfo(std::make_shared<GlobalCodeCompletionAllocator>()) {}
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void ProcessCodeCompleteResults(Sema &S, CodeCompletionContext Context,
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CodeCompletionResult *Results,
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unsigned NumResults) override {
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ResultCtx.VisitedNamespaces =
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getVisitedNamespace(Context.getVisitedContexts());
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ResultCtx.PreferredType = Context.getPreferredType().getAsString();
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ResultCtx.PtrDiffType =
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S.getASTContext().getPointerDiffType().getAsString();
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}
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CodeCompletionAllocator &getAllocator() override {
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return CCTUInfo.getAllocator();
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}
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CodeCompletionTUInfo &getCodeCompletionTUInfo() override { return CCTUInfo; }
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private:
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std::vector<std::string> getVisitedNamespace(
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CodeCompletionContext::VisitedContextSet VisitedContexts) const {
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std::vector<std::string> NSNames;
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for (const auto *Context : VisitedContexts)
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if (const auto *NS = llvm::dyn_cast<NamespaceDecl>(Context))
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NSNames.push_back(NS->getQualifiedNameAsString());
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return NSNames;
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}
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CompletionContext &ResultCtx;
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CodeCompletionTUInfo CCTUInfo;
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};
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class CodeCompleteAction : public SyntaxOnlyAction {
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public:
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CodeCompleteAction(ParsedSourceLocation P, CompletionContext &ResultCtx)
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: CompletePosition(std::move(P)), ResultCtx(ResultCtx) {}
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bool BeginInvocation(CompilerInstance &CI) override {
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CI.getFrontendOpts().CodeCompletionAt = CompletePosition;
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CI.setCodeCompletionConsumer(new VisitedContextFinder(ResultCtx));
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return true;
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}
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private:
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// 1-based code complete position <Line, Col>;
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ParsedSourceLocation CompletePosition;
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CompletionContext &ResultCtx;
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};
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ParsedSourceLocation offsetToPosition(llvm::StringRef Code, size_t Offset) {
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Offset = std::min(Code.size(), Offset);
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StringRef Before = Code.substr(0, Offset);
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int Lines = Before.count('\n');
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size_t PrevNL = Before.rfind('\n');
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size_t StartOfLine = (PrevNL == StringRef::npos) ? 0 : (PrevNL + 1);
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return {TestCCName, static_cast<unsigned>(Lines + 1),
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static_cast<unsigned>(Offset - StartOfLine + 1)};
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}
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CompletionContext runCompletion(StringRef Code, size_t Offset) {
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CompletionContext ResultCtx;
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clang::tooling::runToolOnCodeWithArgs(
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std::make_unique<CodeCompleteAction>(offsetToPosition(Code, Offset),
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ResultCtx),
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Code, {"-std=c++11"}, TestCCName);
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return ResultCtx;
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}
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CompletionContext runCodeCompleteOnCode(StringRef AnnotatedCode) {
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llvm::Annotations A(AnnotatedCode);
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return runCompletion(A.code(), A.point());
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}
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std::vector<std::string>
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collectPreferredTypes(StringRef AnnotatedCode,
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std::string *PtrDiffType = nullptr) {
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llvm::Annotations A(AnnotatedCode);
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std::vector<std::string> Types;
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for (size_t Point : A.points()) {
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auto Results = runCompletion(A.code(), Point);
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if (PtrDiffType) {
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assert(PtrDiffType->empty() || *PtrDiffType == Results.PtrDiffType);
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*PtrDiffType = Results.PtrDiffType;
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}
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Types.push_back(Results.PreferredType);
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}
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return Types;
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}
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TEST(SemaCodeCompleteTest, VisitedNSForValidQualifiedId) {
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auto VisitedNS = runCodeCompleteOnCode(R"cpp(
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namespace ns1 {}
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namespace ns2 {}
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namespace ns3 {}
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namespace ns3 { namespace nns3 {} }
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namespace foo {
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using namespace ns1;
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namespace ns4 {} // not visited
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namespace { using namespace ns2; }
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inline namespace bar { using namespace ns3::nns3; }
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} // foo
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namespace ns { foo::^ }
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)cpp")
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.VisitedNamespaces;
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EXPECT_THAT(VisitedNS, UnorderedElementsAre("foo", "ns1", "ns2", "ns3::nns3",
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"foo::(anonymous)"));
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}
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TEST(SemaCodeCompleteTest, VisitedNSForInvalidQualifiedId) {
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auto VisitedNS = runCodeCompleteOnCode(R"cpp(
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namespace na {}
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namespace ns1 {
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using namespace na;
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foo::^
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}
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)cpp")
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.VisitedNamespaces;
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EXPECT_THAT(VisitedNS, UnorderedElementsAre("ns1", "na"));
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}
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TEST(SemaCodeCompleteTest, VisitedNSWithoutQualifier) {
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auto VisitedNS = runCodeCompleteOnCode(R"cpp(
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namespace n1 {
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namespace n2 {
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void f(^) {}
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}
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}
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)cpp")
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.VisitedNamespaces;
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EXPECT_THAT(VisitedNS, UnorderedElementsAre("n1", "n1::n2"));
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}
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TEST(PreferredTypeTest, BinaryExpr) {
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// Check various operations for arithmetic types.
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StringRef Code = R"cpp(
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void test(int x) {
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x = ^10;
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x += ^10; x -= ^10; x *= ^10; x /= ^10; x %= ^10;
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x + ^10; x - ^10; x * ^10; x / ^10; x % ^10;
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})cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("int"));
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Code = R"cpp(
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void test(float x) {
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x = ^10;
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x += ^10; x -= ^10; x *= ^10; x /= ^10; x %= ^10;
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x + ^10; x - ^10; x * ^10; x / ^10; x % ^10;
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})cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("float"));
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// Pointer types.
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Code = R"cpp(
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void test(int *ptr) {
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ptr - ^ptr;
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ptr = ^ptr;
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})cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("int *"));
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Code = R"cpp(
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void test(int *ptr) {
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ptr + ^10;
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ptr += ^10;
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ptr -= ^10;
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})cpp";
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{
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std::string PtrDiff;
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auto Types = collectPreferredTypes(Code, &PtrDiff);
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EXPECT_THAT(Types, Each(PtrDiff));
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}
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// Comparison operators.
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Code = R"cpp(
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void test(int i) {
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i <= ^1; i < ^1; i >= ^1; i > ^1; i == ^1; i != ^1;
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("int"));
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Code = R"cpp(
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void test(int *ptr) {
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ptr <= ^ptr; ptr < ^ptr; ptr >= ^ptr; ptr > ^ptr;
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ptr == ^ptr; ptr != ^ptr;
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("int *"));
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// Relational operations.
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Code = R"cpp(
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void test(int i, int *ptr) {
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i && ^1; i || ^1;
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ptr && ^1; ptr || ^1;
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("_Bool"));
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// Bitwise operations.
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Code = R"cpp(
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void test(long long ll) {
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ll | ^1; ll & ^1;
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("long long"));
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Code = R"cpp(
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enum A {};
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void test(A a) {
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a | ^1; a & ^1;
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("enum A"));
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Code = R"cpp(
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enum class A {};
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void test(A a) {
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// This is technically illegal with the 'enum class' without overloaded
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// operators, but we pretend it's fine.
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a | ^a; a & ^a;
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("enum A"));
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// Binary shifts.
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Code = R"cpp(
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void test(int i, long long ll) {
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i << ^1; ll << ^1;
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i <<= ^1; i <<= ^1;
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i >> ^1; ll >> ^1;
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i >>= ^1; i >>= ^1;
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("int"));
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// Comma does not provide any useful information.
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Code = R"cpp(
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class Cls {};
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void test(int i, int* ptr, Cls x) {
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(i, ^i);
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(ptr, ^ptr);
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(x, ^x);
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("NULL TYPE"));
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// User-defined types do not take operator overloading into account.
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// However, they provide heuristics for some common cases.
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Code = R"cpp(
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class Cls {};
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void test(Cls c) {
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// we assume arithmetic and comparions ops take the same type.
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c + ^c; c - ^c; c * ^c; c / ^c; c % ^c;
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c == ^c; c != ^c; c < ^c; c <= ^c; c > ^c; c >= ^c;
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// same for the assignments.
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c = ^c; c += ^c; c -= ^c; c *= ^c; c /= ^c; c %= ^c;
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("class Cls"));
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Code = R"cpp(
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class Cls {};
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void test(Cls c) {
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// we assume relational ops operate on bools.
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c && ^c; c || ^c;
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("_Bool"));
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Code = R"cpp(
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class Cls {};
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void test(Cls c) {
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// we make no assumptions about the following operators, since they are
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// often overloaded with a non-standard meaning.
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c << ^c; c >> ^c; c | ^c; c & ^c;
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c <<= ^c; c >>= ^c; c |= ^c; c &= ^c;
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("NULL TYPE"));
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}
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TEST(PreferredTypeTest, Members) {
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StringRef Code = R"cpp(
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struct vector {
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int *begin();
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vector clone();
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};
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void test(int *a) {
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a = ^vector().^clone().^begin();
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("int *"));
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}
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TEST(PreferredTypeTest, Conditions) {
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StringRef Code = R"cpp(
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struct vector {
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bool empty();
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};
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void test() {
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if (^vector().^empty()) {}
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while (^vector().^empty()) {}
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for (; ^vector().^empty();) {}
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("_Bool"));
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}
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TEST(PreferredTypeTest, InitAndAssignment) {
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StringRef Code = R"cpp(
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struct vector {
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int* begin();
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};
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void test() {
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const int* x = ^vector().^begin();
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x = ^vector().^begin();
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if (const int* y = ^vector().^begin()) {}
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("const int *"));
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}
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TEST(PreferredTypeTest, UnaryExprs) {
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StringRef Code = R"cpp(
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void test(long long a) {
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a = +^a;
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a = -^a
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a = ++^a;
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a = --^a;
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("long long"));
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Code = R"cpp(
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void test(int a, int *ptr) {
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!^a;
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!^ptr;
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!!!^a;
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a = !^a;
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a = !^ptr;
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a = !!!^a;
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("_Bool"));
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Code = R"cpp(
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void test(int a) {
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const int* x = &^a;
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("const int"));
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Code = R"cpp(
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void test(int *a) {
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int x = *^a;
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int &r = *^a;
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("int *"));
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Code = R"cpp(
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void test(int a) {
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*^a;
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&^a;
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}
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)cpp";
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}
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TEST(PreferredTypeTest, ParenExpr) {
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StringRef Code = R"cpp(
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const int *i = ^(^(^(^10)));
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("const int *"));
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}
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TEST(PreferredTypeTest, FunctionArguments) {
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StringRef Code = R"cpp(
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void foo(const int*);
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void bar(const int*);
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void bar(const int*, int b);
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struct vector {
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const int *data();
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};
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void test() {
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foo(^(^(^(^vec^tor^().^da^ta^()))));
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bar(^(^(^(^vec^tor^().^da^ta^()))));
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("const int *"));
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Code = R"cpp(
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void bar(int, volatile double *);
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void bar(int, volatile double *, int, int);
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struct vector {
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double *data();
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};
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struct class_members {
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void bar(int, volatile double *);
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void bar(int, volatile double *, int, int);
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};
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void test() {
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bar(10, ^(^(^(^vec^tor^().^da^ta^()))));
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class_members().bar(10, ^(^(^(^vec^tor^().^da^ta^()))));
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("volatile double *"));
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Code = R"cpp(
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namespace ns {
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struct vector {
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};
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}
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void accepts_vector(ns::vector);
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void test() {
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accepts_vector(^::^ns::^vector());
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("ns::vector"));
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Code = R"cpp(
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template <class T>
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struct vector { using self = vector; };
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void accepts_vector(vector<int>);
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int foo(int);
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void test() {
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accepts_vector(^::^vector<decltype(foo(1))>::^self);
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}
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("vector<int>"));
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}
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TEST(PreferredTypeTest, NoCrashOnInvalidTypes) {
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StringRef Code = R"cpp(
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auto x = decltype(&1)(^);
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auto y = new decltype(&1)(^);
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)cpp";
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EXPECT_THAT(collectPreferredTypes(Code), Each("NULL TYPE"));
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}
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} // namespace
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