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llvm-capstone/clang/unittests/Interpreter/CodeCompletionTest.cpp
Fred Fu 35b366ace7
[ClangRepl] Reland Semanic Code Completion (#75556) 
This patch contains changes from
002d471a4a3cd8b429e4ca7c84fd54a642e50e4c, in
addition to a bug fix that added a virtual destructor to
`CompletionContextHandler`

The original changes in the orginal commit piggybacks on clang's
semantic modules to enable semantic completion.  In particular, we use
`CodeCompletionContext` to differentiate two types of code completion.
We also
extract the relevant type information from it.
2023-12-19 22:53:02 +02:00

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#include "clang/Interpreter/CodeCompletion.h"
#include "clang/Frontend/CompilerInstance.h"
#include "clang/Interpreter/Interpreter.h"
#include "clang/Lex/Preprocessor.h"
#include "clang/Sema/CodeCompleteConsumer.h"
#include "clang/Sema/Sema.h"
#include "llvm/LineEditor/LineEditor.h"
#include "llvm/Support/Error.h"
#include "llvm/Support/raw_ostream.h"
#include "gmock/gmock.h"
#include "gtest/gtest.h"
using namespace clang;
namespace {
auto CB = clang::IncrementalCompilerBuilder();
static std::unique_ptr<Interpreter> createInterpreter() {
auto CI = cantFail(CB.CreateCpp());
return cantFail(clang::Interpreter::create(std::move(CI)));
}
static std::vector<std::string> runComp(clang::Interpreter &MainInterp,
llvm::StringRef Input,
llvm::Error &ErrR) {
auto CI = CB.CreateCpp();
if (auto Err = CI.takeError()) {
ErrR = std::move(Err);
return {};
}
auto Interp = clang::Interpreter::create(std::move(*CI));
if (auto Err = Interp.takeError()) {
// log the error and returns an empty vector;
ErrR = std::move(Err);
return {};
}
std::vector<std::string> Results;
std::vector<std::string> Comps;
auto *MainCI = (*Interp)->getCompilerInstance();
auto CC = ReplCodeCompleter();
CC.codeComplete(MainCI, Input, /* Lines */ 1, Input.size() + 1,
MainInterp.getCompilerInstance(), Results);
for (auto Res : Results)
if (Res.find(CC.Prefix) == 0)
Comps.push_back(Res);
return Comps;
}
#ifdef _AIX
TEST(CodeCompletionTest, DISABLED_Sanity) {
#else
TEST(CodeCompletionTest, Sanity) {
#endif
auto Interp = createInterpreter();
if (auto R = Interp->ParseAndExecute("int foo = 12;")) {
consumeError(std::move(R));
return;
}
auto Err = llvm::Error::success();
auto comps = runComp(*Interp, "f", Err);
EXPECT_EQ((size_t)2, comps.size()); // float and foo
EXPECT_EQ(comps[0], std::string("float"));
EXPECT_EQ(comps[1], std::string("foo"));
EXPECT_EQ((bool)Err, false);
}
#ifdef _AIX
TEST(CodeCompletionTest, DISABLED_SanityNoneValid) {
#else
TEST(CodeCompletionTest, SanityNoneValid) {
#endif
auto Interp = createInterpreter();
if (auto R = Interp->ParseAndExecute("int foo = 12;")) {
consumeError(std::move(R));
return;
}
auto Err = llvm::Error::success();
auto comps = runComp(*Interp, "babanana", Err);
EXPECT_EQ((size_t)0, comps.size()); // foo and float
EXPECT_EQ((bool)Err, false);
}
#ifdef _AIX
TEST(CodeCompletionTest, DISABLED_TwoDecls) {
#else
TEST(CodeCompletionTest, TwoDecls) {
#endif
auto Interp = createInterpreter();
if (auto R = Interp->ParseAndExecute("int application = 12;")) {
consumeError(std::move(R));
return;
}
if (auto R = Interp->ParseAndExecute("int apple = 12;")) {
consumeError(std::move(R));
return;
}
auto Err = llvm::Error::success();
auto comps = runComp(*Interp, "app", Err);
EXPECT_EQ((size_t)2, comps.size());
EXPECT_EQ((bool)Err, false);
}
TEST(CodeCompletionTest, CompFunDeclsNoError) {
auto Interp = createInterpreter();
auto Err = llvm::Error::success();
auto comps = runComp(*Interp, "void app(", Err);
EXPECT_EQ((bool)Err, false);
}
TEST(CodeCompletionTest, TypedDirected) {
auto Interp = createInterpreter();
if (auto R = Interp->ParseAndExecute("int application = 12;")) {
consumeError(std::move(R));
return;
}
if (auto R = Interp->ParseAndExecute("char apple = '2';")) {
consumeError(std::move(R));
return;
}
if (auto R = Interp->ParseAndExecute("void add(int &SomeInt){}")) {
consumeError(std::move(R));
return;
}
{
auto Err = llvm::Error::success();
auto comps = runComp(*Interp, std::string("add("), Err);
EXPECT_EQ((size_t)1, comps.size());
EXPECT_EQ((bool)Err, false);
}
if (auto R = Interp->ParseAndExecute("int banana = 42;")) {
consumeError(std::move(R));
return;
}
{
auto Err = llvm::Error::success();
auto comps = runComp(*Interp, std::string("add("), Err);
EXPECT_EQ((size_t)2, comps.size());
EXPECT_EQ(comps[0], "application");
EXPECT_EQ(comps[1], "banana");
EXPECT_EQ((bool)Err, false);
}
{
auto Err = llvm::Error::success();
auto comps = runComp(*Interp, std::string("add(b"), Err);
EXPECT_EQ((size_t)1, comps.size());
EXPECT_EQ(comps[0], "banana");
EXPECT_EQ((bool)Err, false);
}
}
TEST(CodeCompletionTest, SanityClasses) {
auto Interp = createInterpreter();
if (auto R = Interp->ParseAndExecute("struct Apple{};")) {
consumeError(std::move(R));
return;
}
if (auto R = Interp->ParseAndExecute("void takeApple(Apple &a1){}")) {
consumeError(std::move(R));
return;
}
if (auto R = Interp->ParseAndExecute("Apple a1;")) {
consumeError(std::move(R));
return;
}
if (auto R = Interp->ParseAndExecute("void takeAppleCopy(Apple a1){}")) {
consumeError(std::move(R));
return;
}
{
auto Err = llvm::Error::success();
auto comps = runComp(*Interp, "takeApple(", Err);
EXPECT_EQ((size_t)1, comps.size());
EXPECT_EQ(comps[0], std::string("a1"));
EXPECT_EQ((bool)Err, false);
}
{
auto Err = llvm::Error::success();
auto comps = runComp(*Interp, std::string("takeAppleCopy("), Err);
EXPECT_EQ((size_t)1, comps.size());
EXPECT_EQ(comps[0], std::string("a1"));
EXPECT_EQ((bool)Err, false);
}
}
TEST(CodeCompletionTest, SubClassing) {
auto Interp = createInterpreter();
if (auto R = Interp->ParseAndExecute("struct Fruit {};")) {
consumeError(std::move(R));
return;
}
if (auto R = Interp->ParseAndExecute("struct Apple : Fruit{};")) {
consumeError(std::move(R));
return;
}
if (auto R = Interp->ParseAndExecute("void takeFruit(Fruit &f){}")) {
consumeError(std::move(R));
return;
}
if (auto R = Interp->ParseAndExecute("Apple a1;")) {
consumeError(std::move(R));
return;
}
if (auto R = Interp->ParseAndExecute("Fruit f1;")) {
consumeError(std::move(R));
return;
}
auto Err = llvm::Error::success();
auto comps = runComp(*Interp, std::string("takeFruit("), Err);
EXPECT_EQ((size_t)2, comps.size());
EXPECT_EQ(comps[0], std::string("a1"));
EXPECT_EQ(comps[1], std::string("f1"));
EXPECT_EQ((bool)Err, false);
}
TEST(CodeCompletionTest, MultipleArguments) {
auto Interp = createInterpreter();
if (auto R = Interp->ParseAndExecute("int foo = 42;")) {
consumeError(std::move(R));
return;
}
if (auto R = Interp->ParseAndExecute("char fowl = 'A';")) {
consumeError(std::move(R));
return;
}
if (auto R = Interp->ParseAndExecute("void takeTwo(int &a, char b){}")) {
consumeError(std::move(R));
return;
}
auto Err = llvm::Error::success();
auto comps = runComp(*Interp, std::string("takeTwo(foo, "), Err);
EXPECT_EQ((size_t)1, comps.size());
EXPECT_EQ(comps[0], std::string("fowl"));
EXPECT_EQ((bool)Err, false);
}
TEST(CodeCompletionTest, Methods) {
auto Interp = createInterpreter();
cantFail(Interp->ParseAndExecute(
"struct Foo{int add(int a){return 42;} int par(int b){return 42;}};"));
cantFail(Interp->ParseAndExecute("Foo f1;"));
auto Err = llvm::Error::success();
auto comps = runComp(*Interp, std::string("f1."), Err);
EXPECT_EQ((size_t)2, comps.size());
EXPECT_EQ(comps[0], std::string("add"));
EXPECT_EQ(comps[1], std::string("par"));
EXPECT_EQ((bool)Err, false);
}
TEST(CodeCompletionTest, MethodsInvocations) {
auto Interp = createInterpreter();
cantFail(Interp->ParseAndExecute(
"struct Foo{int add(int a){return 42;} int par(int b){return 42;}};"));
cantFail(Interp->ParseAndExecute("Foo f1;"));
cantFail(Interp->ParseAndExecute("int a = 84;"));
auto Err = llvm::Error::success();
auto comps = runComp(*Interp, std::string("f1.add("), Err);
EXPECT_EQ((size_t)1, comps.size());
EXPECT_EQ(comps[0], std::string("a"));
EXPECT_EQ((bool)Err, false);
}
TEST(CodeCompletionTest, NestedInvocations) {
auto Interp = createInterpreter();
cantFail(Interp->ParseAndExecute(
"struct Foo{int add(int a){return 42;} int par(int b){return 42;}};"));
cantFail(Interp->ParseAndExecute("Foo f1;"));
cantFail(Interp->ParseAndExecute("int a = 84;"));
cantFail(Interp->ParseAndExecute("int plus(int a, int b) { return a + b; }"));
auto Err = llvm::Error::success();
auto comps = runComp(*Interp, std::string("plus(42, f1.add("), Err);
EXPECT_EQ((size_t)1, comps.size());
EXPECT_EQ(comps[0], std::string("a"));
EXPECT_EQ((bool)Err, false);
}
TEST(CodeCompletionTest, TemplateFunctions) {
auto Interp = createInterpreter();
cantFail(
Interp->ParseAndExecute("template <typename T> T id(T a) { return a;} "));
cantFail(Interp->ParseAndExecute("int apple = 84;"));
{
auto Err = llvm::Error::success();
auto comps = runComp(*Interp, std::string("id<int>("), Err);
EXPECT_EQ((size_t)1, comps.size());
EXPECT_EQ(comps[0], std::string("apple"));
EXPECT_EQ((bool)Err, false);
}
cantFail(Interp->ParseAndExecute(
"template <typename T> T pickFirst(T a, T b) { return a;} "));
cantFail(Interp->ParseAndExecute("char pear = '4';"));
{
auto Err = llvm::Error::success();
auto comps = runComp(*Interp, std::string("pickFirst(apple, "), Err);
EXPECT_EQ((size_t)1, comps.size());
EXPECT_EQ(comps[0], std::string("apple"));
EXPECT_EQ((bool)Err, false);
}
}
} // anonymous namespace
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