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llvm / llvm-project / 746e632dafbec2277c62164b3e63da4bee1d8553 / . / clang / unittests / Format / QualifierFixerTest.cpp
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//===- unittest/Format/QualifierFixerTest.cpp - Formatting unit tests -----===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "clang/Format/Format.h"
#include "FormatTestUtils.h"
#include "TestLexer.h"
#include "gtest/gtest.h"
#include "../../lib/Format/QualifierAlignmentFixer.h"
#define DEBUG_TYPE "format-qualifier-fixer-test"
using testing::ScopedTrace;
namespace clang {
namespace format {
namespace {
#define CHECK_PARSE(TEXT, FIELD, VALUE) \
EXPECT_NE(VALUE, Style.FIELD) << "Initial value already the same!"; \
EXPECT_EQ(0, parseConfiguration(TEXT, &Style).value()); \
EXPECT_EQ(VALUE, Style.FIELD) << "Unexpected value after parsing!"
#define FAIL_PARSE(TEXT, FIELD, VALUE) \
EXPECT_NE(0, parseConfiguration(TEXT, &Style).value()); \
EXPECT_EQ(VALUE, Style.FIELD) << "Unexpected value after parsing!"
class QualifierFixerTest : public ::testing::Test {
protected:
enum StatusCheck { SC_ExpectComplete, SC_ExpectIncomplete, SC_DoNotCheck };
TokenList annotate(llvm::StringRef Code,
const FormatStyle &Style = getLLVMStyle()) {
return TestLexer(Allocator, Buffers, Style).annotate(Code);
}
llvm::SpecificBumpPtrAllocator<FormatToken> Allocator;
std::vector<std::unique_ptr<llvm::MemoryBuffer>> Buffers;
std::string format(llvm::StringRef Code,
const FormatStyle &Style = getLLVMStyle(),
StatusCheck CheckComplete = SC_ExpectComplete) {
LLVM_DEBUG(llvm::errs() << "---\n");
LLVM_DEBUG(llvm::errs() << Code << "\n\n");
std::vector<tooling::Range> Ranges(1, tooling::Range(0, Code.size()));
FormattingAttemptStatus Status;
tooling::Replacements Replaces =
reformat(Style, Code, Ranges, "<stdin>", &Status);
if (CheckComplete != SC_DoNotCheck) {
bool ExpectedCompleteFormat = CheckComplete == SC_ExpectComplete;
EXPECT_EQ(ExpectedCompleteFormat, Status.FormatComplete)
<< Code << "\n\n";
}
ReplacementCount = Replaces.size();
auto Result = applyAllReplacements(Code, Replaces);
EXPECT_TRUE(static_cast<bool>(Result));
LLVM_DEBUG(llvm::errs() << "\n" << *Result << "\n\n");
return *Result;
}
FormatStyle getStyleWithColumns(FormatStyle Style, unsigned ColumnLimit) {
Style.ColumnLimit = ColumnLimit;
return Style;
}
FormatStyle getLLVMStyleWithColumns(unsigned ColumnLimit) {
return getStyleWithColumns(getLLVMStyle(), ColumnLimit);
}
void _verifyFormat(const char *File, int Line, llvm::StringRef Expected,
llvm::StringRef Code,
const FormatStyle &Style = getLLVMStyle()) {
ScopedTrace t(File, Line, ::testing::Message() << Code.str());
EXPECT_EQ(Expected.str(), format(Expected, Style))
<< "Expected code is not stable";
EXPECT_EQ(Expected.str(), format(Code, Style));
if (Style.Language == FormatStyle::LK_Cpp) {
// Objective-C++ is a superset of C++, so everything checked for C++
// needs to be checked for Objective-C++ as well.
FormatStyle ObjCStyle = Style;
ObjCStyle.Language = FormatStyle::LK_ObjC;
EXPECT_EQ(Expected.str(), format(test::messUp(Code), ObjCStyle));
}
}
void _verifyFormat(const char *File, int Line, llvm::StringRef Code,
const FormatStyle &Style = getLLVMStyle()) {
_verifyFormat(File, Line, Code, test::messUp(Code), Style);
}
void _verifyIncompleteFormat(const char *File, int Line, llvm::StringRef Code,
const FormatStyle &Style = getLLVMStyle()) {
ScopedTrace t(File, Line, ::testing::Message() << Code.str());
EXPECT_EQ(Code.str(),
format(test::messUp(Code), Style, SC_ExpectIncomplete));
}
void _verifyIndependentOfContext(const char *File, int Line,
llvm::StringRef Text,
const FormatStyle &Style = getLLVMStyle()) {
_verifyFormat(File, Line, Text, Style);
_verifyFormat(File, Line, llvm::Twine("void f() { " + Text + " }").str(),
Style);
}
/// \brief Verify that clang-format does not crash on the given input.
void verifyNoCrash(llvm::StringRef Code,
const FormatStyle &Style = getLLVMStyle()) {
format(Code, Style, SC_DoNotCheck);
}
int ReplacementCount;
};
#define verifyFormat(...) _verifyFormat(__FILE__, __LINE__, __VA_ARGS__)
} // namespace
TEST_F(QualifierFixerTest, RotateTokens) {
// TODO add test
EXPECT_EQ(LeftRightQualifierAlignmentFixer::getTokenFromQualifier("const"),
tok::kw_const);
EXPECT_EQ(LeftRightQualifierAlignmentFixer::getTokenFromQualifier("volatile"),
tok::kw_volatile);
EXPECT_EQ(LeftRightQualifierAlignmentFixer::getTokenFromQualifier("inline"),
tok::kw_inline);
EXPECT_EQ(LeftRightQualifierAlignmentFixer::getTokenFromQualifier("static"),
tok::kw_static);
EXPECT_EQ(LeftRightQualifierAlignmentFixer::getTokenFromQualifier("restrict"),
tok::kw_restrict);
}
TEST_F(QualifierFixerTest, FailQualifierInvalidConfiguration) {
FormatStyle Style = {};
Style.Language = FormatStyle::LK_Cpp;
FAIL_PARSE("QualifierAlignment: Custom\n"
"QualifierOrder: [const, volatile, apples, type]",
QualifierOrder,
std::vector<std::string>({"const", "volatile", "apples", "type"}));
}
TEST_F(QualifierFixerTest, FailQualifierDuplicateConfiguration) {
FormatStyle Style = {};
Style.Language = FormatStyle::LK_Cpp;
FAIL_PARSE("QualifierAlignment: Custom\n"
"QualifierOrder: [const, volatile, const, type]",
QualifierOrder,
std::vector<std::string>({"const", "volatile", "const", "type"}));
}
TEST_F(QualifierFixerTest, FailQualifierMissingType) {
FormatStyle Style = {};
Style.Language = FormatStyle::LK_Cpp;
FAIL_PARSE("QualifierAlignment: Custom\n"
"QualifierOrder: [const, volatile ]",
QualifierOrder,
std::vector<std::string>({
"const",
"volatile",
}));
}
TEST_F(QualifierFixerTest, FailQualifierEmptyOrder) {
FormatStyle Style = {};
Style.Language = FormatStyle::LK_Cpp;
FAIL_PARSE("QualifierAlignment: Custom\nQualifierOrder: []", QualifierOrder,
std::vector<std::string>({}));
}
TEST_F(QualifierFixerTest, FailQualifierMissingOrder) {
FormatStyle Style = {};
Style.Language = FormatStyle::LK_Cpp;
FAIL_PARSE("QualifierAlignment: Custom", QualifierOrder,
std::vector<std::string>());
}
TEST_F(QualifierFixerTest, QualifierLeft) {
FormatStyle Style = {};
Style.Language = FormatStyle::LK_Cpp;
CHECK_PARSE("QualifierAlignment: Left", QualifierOrder,
std::vector<std::string>({"const", "volatile", "type"}));
}
TEST_F(QualifierFixerTest, QualifierRight) {
FormatStyle Style = {};
Style.Language = FormatStyle::LK_Cpp;
CHECK_PARSE("QualifierAlignment: Right", QualifierOrder,
std::vector<std::string>({"type", "const", "volatile"}));
}
TEST_F(QualifierFixerTest, QualifiersCustomOrder) {
FormatStyle Style = getLLVMStyle();
Style.QualifierAlignment = FormatStyle::QAS_Left;
Style.QualifierOrder = {"inline", "constexpr", "static",
"const", "volatile", "type"};
verifyFormat("const volatile int a;", "const volatile int a;", Style);
verifyFormat("const volatile int a;", "volatile const int a;", Style);
verifyFormat("const volatile int a;", "int const volatile a;", Style);
verifyFormat("const volatile int a;", "int volatile const a;", Style);
verifyFormat("const volatile int a;", "const int volatile a;", Style);
verifyFormat("static const volatile int a;", "const static int volatile a;",
Style);
verifyFormat("inline static const volatile int a;",
"const static inline int volatile a;", Style);
verifyFormat("constexpr static int a;", "static constexpr int a;", Style);
verifyFormat("constexpr static int A;", "static constexpr int A;", Style);
verifyFormat("constexpr static int Bar;", "static constexpr int Bar;", Style);
verifyFormat("constexpr static LPINT Bar;", "static constexpr LPINT Bar;",
Style);
verifyFormat("const const int a;", "const int const a;", Style);
}
TEST_F(QualifierFixerTest, LeftRightQualifier) {
FormatStyle Style = getLLVMStyle();
// keep the const style unaltered
verifyFormat("const int a;", Style);
verifyFormat("const int *a;", Style);
verifyFormat("const int &a;", Style);
verifyFormat("const int &&a;", Style);
verifyFormat("int const b;", Style);
verifyFormat("int const *b;", Style);
verifyFormat("int const &b;", Style);
verifyFormat("int const &&b;", Style);
verifyFormat("int const *b const;", Style);
verifyFormat("int *const c;", Style);
verifyFormat("const Foo a;", Style);
verifyFormat("const Foo *a;", Style);
verifyFormat("const Foo &a;", Style);
verifyFormat("const Foo &&a;", Style);
verifyFormat("Foo const b;", Style);
verifyFormat("Foo const *b;", Style);
verifyFormat("Foo const &b;", Style);
verifyFormat("Foo const &&b;", Style);
verifyFormat("Foo const *b const;", Style);
verifyFormat("LLVM_NODISCARD const int &Foo();", Style);
verifyFormat("LLVM_NODISCARD int const &Foo();", Style);
verifyFormat("volatile const int *restrict;", Style);
verifyFormat("const volatile int *restrict;", Style);
verifyFormat("const int volatile *restrict;", Style);
}
TEST_F(QualifierFixerTest, RightQualifier) {
FormatStyle Style = getLLVMStyle();
Style.QualifierAlignment = FormatStyle::QAS_Right;
Style.QualifierOrder = {"type", "const", "volatile"};
verifyFormat("int const a;", Style);
verifyFormat("int const *a;", Style);
verifyFormat("int const &a;", Style);
verifyFormat("int const &&a;", Style);
verifyFormat("int const b;", Style);
verifyFormat("int const *b;", Style);
verifyFormat("int const &b;", Style);
verifyFormat("int const &&b;", Style);
verifyFormat("int const *b const;", Style);
verifyFormat("int *const c;", Style);
verifyFormat("Foo const a;", Style);
verifyFormat("Foo const *a;", Style);
verifyFormat("Foo const &a;", Style);
verifyFormat("Foo const &&a;", Style);
verifyFormat("Foo const b;", Style);
verifyFormat("Foo const *b;", Style);
verifyFormat("Foo const &b;", Style);
verifyFormat("Foo const &&b;", Style);
verifyFormat("Foo const *b const;", Style);
verifyFormat("Foo *const b;", Style);
verifyFormat("Foo const *const b;", Style);
verifyFormat("auto const v = get_value();", Style);
verifyFormat("long long const &a;", Style);
verifyFormat("unsigned char const *a;", Style);
verifyFormat("int main(int const argc, char const *const *const argv)",
Style);
verifyFormat("LLVM_NODISCARD int const &Foo();", Style);
verifyFormat("SourceRange getSourceRange() const override LLVM_READONLY",
Style);
verifyFormat("void foo() const override;", Style);
verifyFormat("void foo() const override LLVM_READONLY;", Style);
verifyFormat("void foo() const final;", Style);
verifyFormat("void foo() const final LLVM_READONLY;", Style);
verifyFormat("void foo() const LLVM_READONLY;", Style);
verifyFormat(
"template <typename Func> explicit Action(Action<Func> const &action);",
Style);
verifyFormat(
"template <typename Func> explicit Action(Action<Func> const &action);",
"template <typename Func> explicit Action(const Action<Func>& action);",
Style);
verifyFormat(
"template <typename Func> explicit Action(Action<Func> const &action);",
"template <typename Func>\nexplicit Action(const Action<Func>& action);",
Style);
verifyFormat("int const a;", "const int a;", Style);
verifyFormat("int const *a;", "const int *a;", Style);
verifyFormat("int const &a;", "const int &a;", Style);
verifyFormat("foo(int const &a)", "foo(const int &a)", Style);
verifyFormat("unsigned char *a;", "unsigned char *a;", Style);
verifyFormat("unsigned char const *a;", "const unsigned char *a;", Style);
verifyFormat("vector<int, int const, int &, int const &> args1",
"vector<int, const int, int &, const int &> args1", Style);
verifyFormat("unsigned int const &get_nu() const",
"const unsigned int &get_nu() const", Style);
verifyFormat("Foo<int> const &a", "const Foo<int> &a", Style);
verifyFormat("Foo<int>::iterator const &a", "const Foo<int>::iterator &a",
Style);
verifyFormat("Foo(int a, "
"unsigned b, // c-style args\n"
" Bar const &c);",
"Foo(int a, "
"unsigned b, // c-style args\n"
" const Bar &c);",
Style);
verifyFormat("int const volatile;", "volatile const int;", Style);
verifyFormat("int const volatile;", "const volatile int;", Style);
verifyFormat("int const volatile;", "const int volatile;", Style);
verifyFormat("int const volatile *restrict;", "volatile const int *restrict;",
Style);
verifyFormat("int const volatile *restrict;", "const volatile int *restrict;",
Style);
verifyFormat("int const volatile *restrict;", "const int volatile *restrict;",
Style);
verifyFormat("static int const bat;", "static const int bat;", Style);
verifyFormat("static int const bat;", "static int const bat;", Style);
verifyFormat("int const Foo<int>::bat = 0;", "const int Foo<int>::bat = 0;",
Style);
verifyFormat("int const Foo<int>::bat = 0;", "int const Foo<int>::bat = 0;",
Style);
verifyFormat("void fn(Foo<T> const &i);", "void fn(const Foo<T> &i);", Style);
verifyFormat("int const Foo<int>::fn() {", "int const Foo<int>::fn() {",
Style);
verifyFormat("Foo<Foo<int>> const *p;", "const Foo<Foo<int>> *p;", Style);
verifyFormat(
"Foo<Foo<int>> const *p = const_cast<Foo<Foo<int>> const *>(&ffi);",
"const Foo<Foo<int>> *p = const_cast<const Foo<Foo<int>> *>(&ffi);",
Style);
verifyFormat("void fn(Foo<T> const &i);", "void fn(const Foo<T> &i);", Style);
verifyFormat("void fns(ns::S const &s);", "void fns(const ns::S &s);", Style);
verifyFormat("void fn(ns::Foo<T> const &i);", "void fn(const ns::Foo<T> &i);",
Style);
verifyFormat("void fns(ns::ns2::S const &s);",
"void fns(const ns::ns2::S &s);", Style);
verifyFormat("void fn(ns::Foo<Bar<T>> const &i);",
"void fn(const ns::Foo<Bar<T>> &i);", Style);
verifyFormat("void fn(ns::ns2::Foo<Bar<T>> const &i);",
"void fn(const ns::ns2::Foo<Bar<T>> &i);", Style);
verifyFormat("void fn(ns::ns2::Foo<Bar<T, U>> const &i);",
"void fn(const ns::ns2::Foo<Bar<T, U>> &i);", Style);
verifyFormat("LocalScope const *Scope = nullptr;",
"const LocalScope* Scope = nullptr;", Style);
verifyFormat("struct DOTGraphTraits<Stmt const *>",
"struct DOTGraphTraits<const Stmt *>", Style);
verifyFormat(
"bool tools::addXRayRuntime(ToolChain const &TC, ArgList const &Args) {",
"bool tools::addXRayRuntime(const ToolChain&TC, const ArgList &Args) {",
Style);
verifyFormat("Foo<Foo<int> const> P;", "Foo<const Foo<int>> P;", Style);
verifyFormat("Foo<Foo<int> const> P;\n", "Foo<const Foo<int>> P;\n", Style);
verifyFormat("Foo<Foo<int> const> P;\n#if 0\n#else\n#endif",
"Foo<const Foo<int>> P;\n#if 0\n#else\n#endif", Style);
verifyFormat("auto const i = 0;", "const auto i = 0;", Style);
verifyFormat("auto const &ir = i;", "const auto &ir = i;", Style);
verifyFormat("auto const *ip = &i;", "const auto *ip = &i;", Style);
verifyFormat("Foo<Foo<int> const> P;\n#if 0\n#else\n#endif",
"Foo<const Foo<int>> P;\n#if 0\n#else\n#endif", Style);
verifyFormat("Bar<Bar<int const> const> P;\n#if 0\n#else\n#endif",
"Bar<Bar<const int> const> P;\n#if 0\n#else\n#endif", Style);
verifyFormat("Baz<Baz<int const> const> P;\n#if 0\n#else\n#endif",
"Baz<const Baz<const int>> P;\n#if 0\n#else\n#endif", Style);
// verifyFormat("#if 0\nBoo<Boo<int const> const> P;\n#else\n#endif",
// "#if 0\nBoo<const Boo<const int>> P;\n#else\n#endif", Style);
verifyFormat("int const P;\n#if 0\n#else\n#endif",
"const int P;\n#if 0\n#else\n#endif", Style);
verifyFormat("unsigned long const a;", "const unsigned long a;", Style);
verifyFormat("unsigned long long const a;", "const unsigned long long a;",
Style);
// don't adjust macros
verifyFormat("const INTPTR a;", "const INTPTR a;", Style);
}
TEST_F(QualifierFixerTest, LeftQualifier) {
FormatStyle Style = getLLVMStyle();
Style.QualifierAlignment = FormatStyle::QAS_Left;
Style.QualifierOrder = {"inline", "static", "const", "volatile", "type"};
verifyFormat("const int a;", Style);
verifyFormat("const int *a;", Style);
verifyFormat("const int &a;", Style);
verifyFormat("const int &&a;", Style);
verifyFormat("const int b;", Style);
verifyFormat("const int *b;", Style);
verifyFormat("const int &b;", Style);
verifyFormat("const int &&b;", Style);
verifyFormat("const int *b const;", Style);
verifyFormat("int *const c;", Style);
verifyFormat("const Foo a;", Style);
verifyFormat("const Foo *a;", Style);
verifyFormat("const Foo &a;", Style);
verifyFormat("const Foo &&a;", Style);
verifyFormat("const Foo b;", Style);
verifyFormat("const Foo *b;", Style);
verifyFormat("const Foo &b;", Style);
verifyFormat("const Foo &&b;", Style);
verifyFormat("const Foo *b const;", Style);
verifyFormat("Foo *const b;", Style);
verifyFormat("const Foo *const b;", Style);
verifyFormat("LLVM_NODISCARD const int &Foo();", Style);
verifyFormat("const char a[];", Style);
verifyFormat("const auto v = get_value();", Style);
verifyFormat("const long long &a;", Style);
verifyFormat("const unsigned char *a;", Style);
verifyFormat("const unsigned char *a;", "unsigned char const *a;", Style);
verifyFormat("const Foo<int> &a", "Foo<int> const &a", Style);
verifyFormat("const Foo<int>::iterator &a", "Foo<int>::iterator const &a",
Style);
verifyFormat("const int a;", "int const a;", Style);
verifyFormat("const int *a;", "int const *a;", Style);
verifyFormat("const int &a;", "int const &a;", Style);
verifyFormat("foo(const int &a)", "foo(int const &a)", Style);
verifyFormat("unsigned char *a;", "unsigned char *a;", Style);
verifyFormat("const unsigned int &get_nu() const",
"unsigned int const &get_nu() const", Style);
verifyFormat("const volatile int;", "volatile const int;", Style);
verifyFormat("const volatile int;", "const volatile int;", Style);
verifyFormat("const volatile int;", "const int volatile;", Style);
verifyFormat("const volatile int *restrict;", "volatile const int *restrict;",
Style);
verifyFormat("const volatile int *restrict;", "const volatile int *restrict;",
Style);
verifyFormat("const volatile int *restrict;", "const int volatile *restrict;",
Style);
verifyFormat("SourceRange getSourceRange() const override LLVM_READONLY;",
Style);
verifyFormat("void foo() const override;", Style);
verifyFormat("void foo() const override LLVM_READONLY;", Style);
verifyFormat("void foo() const final;", Style);
verifyFormat("void foo() const final LLVM_READONLY;", Style);
verifyFormat("void foo() const LLVM_READONLY;", Style);
verifyFormat(
"template <typename Func> explicit Action(const Action<Func> &action);",
Style);
verifyFormat(
"template <typename Func> explicit Action(const Action<Func> &action);",
"template <typename Func> explicit Action(Action<Func> const &action);",
Style);
verifyFormat("static const int bat;", "static const int bat;", Style);
verifyFormat("static const int bat;", "static int const bat;", Style);
verifyFormat("static const int Foo<int>::bat = 0;",
"static const int Foo<int>::bat = 0;", Style);
verifyFormat("static const int Foo<int>::bat = 0;",
"static int const Foo<int>::bat = 0;", Style);
verifyFormat("void fn(const Foo<T> &i);");
verifyFormat("const int Foo<int>::bat = 0;", "const int Foo<int>::bat = 0;",
Style);
verifyFormat("const int Foo<int>::bat = 0;", "int const Foo<int>::bat = 0;",
Style);
verifyFormat("void fn(const Foo<T> &i);", "void fn( Foo<T> const &i);",
Style);
verifyFormat("const int Foo<int>::fn() {", "int const Foo<int>::fn() {",
Style);
verifyFormat("const Foo<Foo<int>> *p;", "Foo<Foo<int>> const *p;", Style);
verifyFormat(
"const Foo<Foo<int>> *p = const_cast<const Foo<Foo<int>> *>(&ffi);",
"const Foo<Foo<int>> *p = const_cast<Foo<Foo<int>> const *>(&ffi);",
Style);
verifyFormat("void fn(const Foo<T> &i);", "void fn(Foo<T> const &i);", Style);
verifyFormat("void fns(const ns::S &s);", "void fns(ns::S const &s);", Style);
verifyFormat("void fn(const ns::Foo<T> &i);", "void fn(ns::Foo<T> const &i);",
Style);
verifyFormat("void fns(const ns::ns2::S &s);",
"void fns(ns::ns2::S const &s);", Style);
verifyFormat("void fn(const ns::Foo<Bar<T>> &i);",
"void fn(ns::Foo<Bar<T>> const &i);", Style);
verifyFormat("void fn(const ns::ns2::Foo<Bar<T>> &i);",
"void fn(ns::ns2::Foo<Bar<T>> const &i);", Style);
verifyFormat("void fn(const ns::ns2::Foo<Bar<T, U>> &i);",
"void fn(ns::ns2::Foo<Bar<T, U>> const &i);", Style);
verifyFormat("const auto i = 0;", "auto const i = 0;", Style);
verifyFormat("const auto &ir = i;", "auto const &ir = i;", Style);
verifyFormat("const auto *ip = &i;", "auto const *ip = &i;", Style);
verifyFormat("Foo<const Foo<int>> P;\n#if 0\n#else\n#endif",
"Foo<Foo<int> const> P;\n#if 0\n#else\n#endif", Style);
verifyFormat("Foo<Foo<const int>> P;\n#if 0\n#else\n#endif",
"Foo<Foo<int const>> P;\n#if 0\n#else\n#endif", Style);
verifyFormat("const int P;\n#if 0\n#else\n#endif",
"int const P;\n#if 0\n#else\n#endif", Style);
verifyFormat("const unsigned long a;", "unsigned long const a;", Style);
verifyFormat("const unsigned long long a;", "unsigned long long const a;",
Style);
verifyFormat("const long long unsigned a;", "long const long unsigned a;",
Style);
verifyFormat("const std::Foo", "const std::Foo", Style);
verifyFormat("const std::Foo<>", "const std::Foo<>", Style);
verifyFormat("const std::Foo < int", "const std::Foo<int", Style);
verifyFormat("const std::Foo<int>", "const std::Foo<int>", Style);
// don't adjust macros
verifyFormat("INTPTR const a;", "INTPTR const a;", Style);
}
TEST_F(QualifierFixerTest, ConstVolatileQualifiersOrder) {
FormatStyle Style = getLLVMStyle();
Style.QualifierAlignment = FormatStyle::QAS_Left;
Style.QualifierOrder = {"inline", "static", "const", "volatile", "type"};
// The Default
EXPECT_EQ(Style.QualifierOrder.size(), (size_t)5);
verifyFormat("const volatile int a;", "const volatile int a;", Style);
verifyFormat("const volatile int a;", "volatile const int a;", Style);
verifyFormat("const volatile int a;", "int const volatile a;", Style);
verifyFormat("const volatile int a;", "int volatile const a;", Style);
verifyFormat("const volatile int a;", "const int volatile a;", Style);
Style.QualifierAlignment = FormatStyle::QAS_Right;
Style.QualifierOrder = {"type", "const", "volatile"};
verifyFormat("int const volatile a;", "const volatile int a;", Style);
verifyFormat("int const volatile a;", "volatile const int a;", Style);
verifyFormat("int const volatile a;", "int const volatile a;", Style);
verifyFormat("int const volatile a;", "int volatile const a;", Style);
verifyFormat("int const volatile a;", "const int volatile a;", Style);
Style.QualifierAlignment = FormatStyle::QAS_Left;
Style.QualifierOrder = {"volatile", "const", "type"};
verifyFormat("volatile const int a;", "const volatile int a;", Style);
verifyFormat("volatile const int a;", "volatile const int a;", Style);
verifyFormat("volatile const int a;", "int const volatile a;", Style);
verifyFormat("volatile const int a;", "int volatile const a;", Style);
verifyFormat("volatile const int a;", "const int volatile a;", Style);
Style.QualifierAlignment = FormatStyle::QAS_Right;
Style.QualifierOrder = {"type", "volatile", "const"};
verifyFormat("int volatile const a;", "const volatile int a;", Style);
verifyFormat("int volatile const a;", "volatile const int a;", Style);
verifyFormat("int volatile const a;", "int const volatile a;", Style);
verifyFormat("int volatile const a;", "int volatile const a;", Style);
verifyFormat("int volatile const a;", "const int volatile a;", Style);
Style.QualifierAlignment = FormatStyle::QAS_Custom;
Style.QualifierOrder = {"type", "volatile", "const"};
verifyFormat("int volatile const a;", "const volatile int a;", Style);
verifyFormat("int volatile const a;", "volatile const int a;", Style);
verifyFormat("int volatile const a;", "int const volatile a;", Style);
verifyFormat("int volatile const a;", "int volatile const a;", Style);
verifyFormat("int volatile const a;", "const int volatile a;", Style);
}
TEST_F(QualifierFixerTest, InlineStatics) {
FormatStyle Style = getLLVMStyle();
Style.QualifierAlignment = FormatStyle::QAS_Left;
Style.QualifierOrder = {"inline", "static", "const", "volatile", "type"};
EXPECT_EQ(Style.QualifierOrder.size(), (size_t)5);
verifyFormat("inline static const volatile int a;",
"const inline static volatile int a;", Style);
verifyFormat("inline static const volatile int a;",
"volatile inline static const int a;", Style);
verifyFormat("inline static const volatile int a;",
"int const inline static volatile a;", Style);
verifyFormat("inline static const volatile int a;",
"int volatile inline static const a;", Style);
verifyFormat("inline static const volatile int a;",
"const int inline static volatile a;", Style);
}
TEST_F(QualifierFixerTest, AmpEqual) {
FormatStyle Style = getLLVMStyle();
Style.QualifierAlignment = FormatStyle::QAS_Custom;
Style.QualifierOrder = {"static", "type", "const"};
EXPECT_EQ(Style.QualifierOrder.size(), (size_t)3);
verifyFormat("foo(std::string const & = std::string()) const",
"foo(const std::string & = std::string()) const", Style);
verifyFormat("foo(std::string const & = std::string())",
"foo(const std::string & = std::string())", Style);
}
TEST_F(QualifierFixerTest, MoveConstBeyondTypeSmall) {
FormatStyle Style = getLLVMStyle();
Style.QualifierAlignment = FormatStyle::QAS_Custom;
Style.QualifierOrder = {"type", "const"};
EXPECT_EQ(Style.QualifierOrder.size(), (size_t)2);
verifyFormat("int const a;", "const int a;", Style);
verifyFormat("int const *a;", "const int*a;", Style);
verifyFormat("int const *a;", "const int *a;", Style);
verifyFormat("int const &a;", "const int &a;", Style);
verifyFormat("int const &&a;", "const int &&a;", Style);
}
TEST_F(QualifierFixerTest, MoveConstBeforeTypeSmall) {
FormatStyle Style = getLLVMStyle();
Style.QualifierAlignment = FormatStyle::QAS_Custom;
Style.QualifierOrder = {"const", "type"};
EXPECT_EQ(Style.QualifierOrder.size(), (size_t)2);
verifyFormat("const int a;", "int const a;", Style);
verifyFormat("const int *a;", "int const *a;", Style);
verifyFormat("const int *a const;", "int const *a const;", Style);
verifyFormat("const int a = foo();", "int const a = foo();", Style);
verifyFormat("const int *a = foo();", "int const *a = foo();", Style);
verifyFormat("const int *a const = foo();", "int const *a const = foo();",
Style);
verifyFormat("const auto a = foo();", "auto const a = foo();", Style);
verifyFormat("const auto *a = foo();", "auto const *a = foo();", Style);
verifyFormat("const auto *a const = foo();", "auto const *a const = foo();",
Style);
}
TEST_F(QualifierFixerTest, MoveConstBeyondType) {
FormatStyle Style = getLLVMStyle();
Style.QualifierAlignment = FormatStyle::QAS_Custom;
Style.QualifierOrder = {"static", "inline", "type", "const", "volatile"};
EXPECT_EQ(Style.QualifierOrder.size(), (size_t)5);
verifyFormat("static inline int const volatile a;",
"const inline static volatile int a;", Style);
verifyFormat("static inline int const volatile a;",
"volatile inline static const int a;", Style);
verifyFormat("static inline int const volatile a;",
"int const inline static volatile a;", Style);
verifyFormat("static inline int const volatile a;",
"int volatile inline static const a;", Style);
verifyFormat("static inline int const volatile a;",
"const int inline static volatile a;", Style);
verifyFormat("static inline int const volatile *a const;",
"const int inline static volatile *a const;", Style);
}
TEST_F(QualifierFixerTest, PrepareLeftRightOrdering) {
FormatStyle Style = getLLVMStyle();
Style.QualifierAlignment = FormatStyle::QAS_Custom;
Style.QualifierOrder = {"static", "inline", "type", "const", "volatile"};
std::vector<std::string> Left;
std::vector<std::string> Right;
std::vector<tok::TokenKind> ConfiguredTokens;
QualifierAlignmentFixer::PrepareLeftRightOrdering(Style.QualifierOrder, Left,
Right, ConfiguredTokens);
EXPECT_EQ(Left.size(), (size_t)2);
EXPECT_EQ(Right.size(), (size_t)2);
std::vector<std::string> LeftResult = {"inline", "static"};
std::vector<std::string> RightResult = {"const", "volatile"};
EXPECT_EQ(Left, LeftResult);
EXPECT_EQ(Right, RightResult);
}
TEST_F(QualifierFixerTest, IsQualifierType) {
std::vector<tok::TokenKind> ConfiguredTokens;
ConfiguredTokens.push_back(tok::kw_const);
ConfiguredTokens.push_back(tok::kw_static);
ConfiguredTokens.push_back(tok::kw_inline);
ConfiguredTokens.push_back(tok::kw_restrict);
ConfiguredTokens.push_back(tok::kw_constexpr);
auto Tokens =
annotate("const static inline auto restrict int double long constexpr");
EXPECT_TRUE(LeftRightQualifierAlignmentFixer::isQualifierOrType(
Tokens[0], ConfiguredTokens));
EXPECT_TRUE(LeftRightQualifierAlignmentFixer::isQualifierOrType(
Tokens[1], ConfiguredTokens));
EXPECT_TRUE(LeftRightQualifierAlignmentFixer::isQualifierOrType(
Tokens[2], ConfiguredTokens));
EXPECT_TRUE(LeftRightQualifierAlignmentFixer::isQualifierOrType(
Tokens[3], ConfiguredTokens));
EXPECT_TRUE(LeftRightQualifierAlignmentFixer::isQualifierOrType(
Tokens[4], ConfiguredTokens));
EXPECT_TRUE(LeftRightQualifierAlignmentFixer::isQualifierOrType(
Tokens[5], ConfiguredTokens));
EXPECT_TRUE(LeftRightQualifierAlignmentFixer::isQualifierOrType(
Tokens[6], ConfiguredTokens));
EXPECT_TRUE(LeftRightQualifierAlignmentFixer::isQualifierOrType(
Tokens[7], ConfiguredTokens));
EXPECT_TRUE(LeftRightQualifierAlignmentFixer::isQualifierOrType(
Tokens[8], ConfiguredTokens));
auto NotTokens = annotate("for while do Foo Bar ");
EXPECT_FALSE(LeftRightQualifierAlignmentFixer::isQualifierOrType(
NotTokens[0], ConfiguredTokens));
EXPECT_FALSE(LeftRightQualifierAlignmentFixer::isQualifierOrType(
NotTokens[1], ConfiguredTokens));
EXPECT_FALSE(LeftRightQualifierAlignmentFixer::isQualifierOrType(
NotTokens[2], ConfiguredTokens));
EXPECT_FALSE(LeftRightQualifierAlignmentFixer::isQualifierOrType(
NotTokens[3], ConfiguredTokens));
EXPECT_FALSE(LeftRightQualifierAlignmentFixer::isQualifierOrType(
NotTokens[4], ConfiguredTokens));
EXPECT_FALSE(LeftRightQualifierAlignmentFixer::isQualifierOrType(
NotTokens[5], ConfiguredTokens));
}
TEST_F(QualifierFixerTest, IsMacro) {
auto Tokens = annotate("INT INTPR Foo int");
EXPECT_TRUE(LeftRightQualifierAlignmentFixer::isPossibleMacro(Tokens[0]));
EXPECT_TRUE(LeftRightQualifierAlignmentFixer::isPossibleMacro(Tokens[1]));
EXPECT_FALSE(LeftRightQualifierAlignmentFixer::isPossibleMacro(Tokens[2]));
EXPECT_FALSE(LeftRightQualifierAlignmentFixer::isPossibleMacro(Tokens[3]));
}
TEST_F(QualifierFixerTest, OverlappingQualifier) {
FormatStyle Style = getLLVMStyle();
Style.QualifierAlignment = FormatStyle::QAS_Left;
Style.QualifierOrder = {"const", "type"};
verifyFormat("Foo(const Bar &name);", "Foo(Bar const &name);", Style);
}
TEST_F(QualifierFixerTest, DontPushQualifierThroughNonSpecifiedTypes) {
FormatStyle Style = getLLVMStyle();
Style.QualifierAlignment = FormatStyle::QAS_Left;
Style.QualifierOrder = {"const", "type"};
verifyFormat("inline static const int a;", Style);
Style.QualifierOrder = {"static", "const", "type"};
verifyFormat("inline static const int a;", Style);
verifyFormat("static inline const int a;", "static inline const int a;",
Style);
verifyFormat("static const int a;", "const static int a;", Style);
}
TEST_F(QualifierFixerTest, UnsignedQualifier) {
FormatStyle Style = getLLVMStyle();
Style.QualifierAlignment = FormatStyle::QAS_Left;
Style.QualifierOrder = {"const", "type"};
verifyFormat("Foo(const unsigned char *bytes)",
"Foo(unsigned const char *bytes)", Style);
Style.QualifierAlignment = FormatStyle::QAS_Right;
Style.QualifierOrder = {"type", "const"};
verifyFormat("Foo(unsigned char const *bytes)",
"Foo(unsigned const char *bytes)", Style);
}
TEST_F(QualifierFixerTest, NoOpQualifierReplacements) {
FormatStyle Style = getLLVMStyle();
Style.QualifierAlignment = FormatStyle::QAS_Custom;
Style.QualifierOrder = {"static", "const", "type"};
ReplacementCount = 0;
EXPECT_EQ(ReplacementCount, 0);
verifyFormat("static const uint32 foo[] = {0, 31};", Style);
EXPECT_EQ(ReplacementCount, 0);
}
} // namespace format
} // namespace clang