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//===- unittests/Lex/DependencyDirectivesSourceMinimizer.cpp - -----------===//
//
// 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/Lex/DependencyDirectivesSourceMinimizer.h"
#include "llvm/ADT/SmallString.h"
#include "gtest/gtest.h"
using namespace llvm;
using namespace clang;
using namespace clang::minimize_source_to_dependency_directives;
namespace clang {
bool minimizeSourceToDependencyDirectives(StringRef Input,
SmallVectorImpl<char> &Out) {
SmallVector<minimize_source_to_dependency_directives::Token, 32> Tokens;
return minimizeSourceToDependencyDirectives(Input, Out, Tokens);
}
} // end namespace clang
namespace {
TEST(MinimizeSourceToDependencyDirectivesTest, Empty) {
SmallVector<char, 128> Out;
SmallVector<Token, 4> Tokens;
ASSERT_FALSE(minimizeSourceToDependencyDirectives("", Out, Tokens));
EXPECT_TRUE(Out.empty());
ASSERT_EQ(1u, Tokens.size());
ASSERT_EQ(pp_eof, Tokens.back().K);
ASSERT_FALSE(
minimizeSourceToDependencyDirectives("abc def\nxyz", Out, Tokens));
EXPECT_TRUE(Out.empty());
ASSERT_EQ(1u, Tokens.size());
ASSERT_EQ(pp_eof, Tokens.back().K);
}
TEST(MinimizeSourceToDependencyDirectivesTest, AllTokens) {
SmallVector<char, 128> Out;
SmallVector<Token, 4> Tokens;
ASSERT_FALSE(
minimizeSourceToDependencyDirectives("#define A\n"
"#undef A\n"
"#endif\n"
"#if A\n"
"#ifdef A\n"
"#ifndef A\n"
"#elifdef A\n"
"#elifndef A\n"
"#elif A\n"
"#else\n"
"#include <A>\n"
"#include_next <A>\n"
"#__include_macros <A>\n"
"#import <A>\n"
"@import A;\n"
"#pragma clang module import A\n"
"#pragma push_macro(A)\n"
"#pragma pop_macro(A)\n"
"#pragma include_alias(<A>, <B>)\n"
"export module m;\n"
"import m;\n",
Out, Tokens));
EXPECT_EQ(pp_define, Tokens[0].K);
EXPECT_EQ(pp_undef, Tokens[1].K);
EXPECT_EQ(pp_endif, Tokens[2].K);
EXPECT_EQ(pp_if, Tokens[3].K);
EXPECT_EQ(pp_ifdef, Tokens[4].K);
EXPECT_EQ(pp_ifndef, Tokens[5].K);
EXPECT_EQ(pp_elifdef, Tokens[6].K);
EXPECT_EQ(pp_elifndef, Tokens[7].K);
EXPECT_EQ(pp_elif, Tokens[8].K);
EXPECT_EQ(pp_else, Tokens[9].K);
EXPECT_EQ(pp_include, Tokens[10].K);
EXPECT_EQ(pp_include_next, Tokens[11].K);
EXPECT_EQ(pp___include_macros, Tokens[12].K);
EXPECT_EQ(pp_import, Tokens[13].K);
EXPECT_EQ(decl_at_import, Tokens[14].K);
EXPECT_EQ(pp_pragma_import, Tokens[15].K);
EXPECT_EQ(pp_pragma_push_macro, Tokens[16].K);
EXPECT_EQ(pp_pragma_pop_macro, Tokens[17].K);
EXPECT_EQ(pp_pragma_include_alias, Tokens[18].K);
EXPECT_EQ(cxx_export_decl, Tokens[19].K);
EXPECT_EQ(cxx_module_decl, Tokens[20].K);
EXPECT_EQ(cxx_import_decl, Tokens[21].K);
EXPECT_EQ(pp_eof, Tokens[22].K);
}
TEST(MinimizeSourceToDependencyDirectivesTest, Define) {
SmallVector<char, 128> Out;
SmallVector<Token, 4> Tokens;
ASSERT_FALSE(
minimizeSourceToDependencyDirectives("#define MACRO", Out, Tokens));
EXPECT_STREQ("#define MACRO\n", Out.data());
ASSERT_EQ(2u, Tokens.size());
ASSERT_EQ(pp_define, Tokens.front().K);
}
TEST(MinimizeSourceToDependencyDirectivesTest, DefineSpacing) {
SmallVector<char, 128> Out;
ASSERT_FALSE(
minimizeSourceToDependencyDirectives("#define MACRO\n\n\n", Out));
EXPECT_STREQ("#define MACRO\n", Out.data());
ASSERT_FALSE(
minimizeSourceToDependencyDirectives("#define MACRO \n\n\n", Out));
EXPECT_STREQ("#define MACRO\n", Out.data());
ASSERT_FALSE(
minimizeSourceToDependencyDirectives("#define MACRO a \n\n\n", Out));
EXPECT_STREQ("#define MACRO a\n", Out.data());
ASSERT_FALSE(
minimizeSourceToDependencyDirectives("#define MACRO\n\n\n", Out));
EXPECT_STREQ("#define MACRO\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, DefineMacroArguments) {
SmallVector<char, 128> Out;
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#define MACRO()", Out));
EXPECT_STREQ("#define MACRO()\n", Out.data());
ASSERT_FALSE(
minimizeSourceToDependencyDirectives("#define MACRO(a, b...)", Out));
EXPECT_STREQ("#define MACRO(a,b...)\n", Out.data());
ASSERT_FALSE(
minimizeSourceToDependencyDirectives("#define MACRO content", Out));
EXPECT_STREQ("#define MACRO content\n", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives(
"#define MACRO con tent ", Out));
EXPECT_STREQ("#define MACRO con tent\n", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives(
"#define MACRO() con tent ", Out));
EXPECT_STREQ("#define MACRO() con tent\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, DefineInvalidMacroArguments) {
SmallVector<char, 128> Out;
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#define MACRO((a))", Out));
EXPECT_STREQ("#define MACRO(/* invalid */\n", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#define MACRO(", Out));
EXPECT_STREQ("#define MACRO(/* invalid */\n", Out.data());
ASSERT_FALSE(
minimizeSourceToDependencyDirectives("#define MACRO(a * b)", Out));
EXPECT_STREQ("#define MACRO(/* invalid */\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, DefineHorizontalWhitespace) {
SmallVector<char, 128> Out;
ASSERT_FALSE(minimizeSourceToDependencyDirectives(
"#define MACRO(\t)\tcon \t tent\t", Out));
EXPECT_STREQ("#define MACRO() con \t tent\n", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives(
"#define MACRO(\f)\fcon \f tent\f", Out));
EXPECT_STREQ("#define MACRO() con \f tent\n", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives(
"#define MACRO(\v)\vcon \v tent\v", Out));
EXPECT_STREQ("#define MACRO() con \v tent\n", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives(
"#define MACRO \t\v\f\v\t con\f\t\vtent\v\f \v", Out));
EXPECT_STREQ("#define MACRO con\f\t\vtent\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, DefineMultilineArgs) {
SmallVector<char, 128> Out;
ASSERT_FALSE(
minimizeSourceToDependencyDirectives("#define MACRO(a \\\n"
" )",
Out));
EXPECT_STREQ("#define MACRO(a)\n", Out.data());
ASSERT_FALSE(
minimizeSourceToDependencyDirectives("#define MACRO(a, \\\n"
" b) \\\n"
" call((a), \\\n"
" (b))",
Out));
EXPECT_STREQ("#define MACRO(a,b) call((a), (b))\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest,
DefineMultilineArgsCarriageReturn) {
SmallVector<char, 128> Out;
ASSERT_FALSE(
minimizeSourceToDependencyDirectives("#define MACRO(a, \\\r"
" b) \\\r"
" call((a), \\\r"
" (b))",
Out));
EXPECT_STREQ("#define MACRO(a,b) call((a), (b))\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, DefineMultilineArgsStringize) {
SmallVector<char, 128> Out;
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#define MACRO(a,b) \\\n"
" #a \\\n"
" #b",
Out));
EXPECT_STREQ("#define MACRO(a,b) #a #b\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest,
DefineMultilineArgsCarriageReturnNewline) {
SmallVector<char, 128> Out;
ASSERT_FALSE(
minimizeSourceToDependencyDirectives("#define MACRO(a, \\\r\n"
" b) \\\r\n"
" call((a), \\\r\n"
" (b))",
Out));
EXPECT_STREQ("#define MACRO(a,b) call((a), (b))\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest,
DefineMultilineArgsNewlineCarriageReturn) {
SmallVector<char, 128> Out;
ASSERT_FALSE(
minimizeSourceToDependencyDirectives("#define MACRO(a, \\\n\r"
" b) \\\n\r"
" call((a), \\\n\r"
" (b))",
Out));
EXPECT_STREQ("#define MACRO(a,b) call((a), (b))\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, DefineNumber) {
SmallVector<char, 128> Out;
ASSERT_TRUE(minimizeSourceToDependencyDirectives("#define 0\n", Out));
}
TEST(MinimizeSourceToDependencyDirectivesTest, DefineNoName) {
SmallVector<char, 128> Out;
ASSERT_TRUE(minimizeSourceToDependencyDirectives("#define &\n", Out));
}
TEST(MinimizeSourceToDependencyDirectivesTest, DefineNoWhitespace) {
SmallVector<char, 128> Out;
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#define AND&\n", Out));
EXPECT_STREQ("#define AND &\n", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#define AND\\\n"
"&\n",
Out));
EXPECT_STREQ("#define AND &\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, MultilineComment) {
SmallVector<char, 128> Out;
ASSERT_FALSE(
minimizeSourceToDependencyDirectives("#define MACRO a/*\n"
" /*\n"
"#define MISSING abc\n"
" /*\n"
" /* something */ \n"
"#include /* \"def\" */ <abc> \n",
Out));
EXPECT_STREQ("#define MACRO a\n"
"#include <abc>\n",
Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, MultilineCommentInStrings) {
SmallVector<char, 128> Out;
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#define MACRO1 \"/*\"\n"
"#define MACRO2 \"*/\"\n",
Out));
EXPECT_STREQ("#define MACRO1 \"/*\"\n"
"#define MACRO2 \"*/\"\n",
Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, Ifdef) {
SmallVector<char, 128> Out;
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#ifdef A\n"
"#define B\n"
"#endif\n",
Out));
EXPECT_STREQ("#ifdef A\n"
"#define B\n"
"#endif\n",
Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#ifdef A\n"
"#define B\n"
"#elif B\n"
"#define C\n"
"#elif C\n"
"#define D\n"
"#else\n"
"#define E\n"
"#endif\n",
Out));
EXPECT_STREQ("#ifdef A\n"
"#define B\n"
"#elif B\n"
"#define C\n"
"#elif C\n"
"#define D\n"
"#else\n"
"#define E\n"
"#endif\n",
Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, Elifdef) {
SmallVector<char, 128> Out;
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#ifdef A\n"
"#define B\n"
"#elifdef C\n"
"#define D\n"
"#endif\n",
Out));
EXPECT_STREQ("#ifdef A\n"
"#define B\n"
"#elifdef C\n"
"#define D\n"
"#endif\n",
Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#ifdef A\n"
"#define B\n"
"#elifdef B\n"
"#define C\n"
"#elifndef C\n"
"#define D\n"
"#else\n"
"#define E\n"
"#endif\n",
Out));
EXPECT_STREQ("#ifdef A\n"
"#define B\n"
"#elifdef B\n"
"#define C\n"
"#elifndef C\n"
"#define D\n"
"#else\n"
"#define E\n"
"#endif\n",
Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, EmptyIfdef) {
SmallVector<char, 128> Out;
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#ifdef A\n"
"void skip();\n"
"#elif B\n"
"#elif C\n"
"#else D\n"
"#endif\n",
Out));
EXPECT_STREQ("#ifdef A\n"
"#elif B\n"
"#elif C\n"
"#endif\n",
Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, EmptyElifdef) {
SmallVector<char, 128> Out;
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#ifdef A\n"
"void skip();\n"
"#elifdef B\n"
"#elifndef C\n"
"#else D\n"
"#endif\n",
Out));
EXPECT_STREQ("#ifdef A\n"
"#elifdef B\n"
"#elifndef C\n"
"#endif\n",
Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, Pragma) {
SmallVector<char, 128> Out;
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#pragma A\n", Out));
EXPECT_STREQ("", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives(
"#pragma push_macro(\"MACRO\")\n", Out));
EXPECT_STREQ("#pragma push_macro(\"MACRO\")\n", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives(
"#pragma pop_macro(\"MACRO\")\n", Out));
EXPECT_STREQ("#pragma pop_macro(\"MACRO\")\n", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives(
"#pragma include_alias(\"A\", \"B\")\n", Out));
EXPECT_STREQ("#pragma include_alias(\"A\", \"B\")\n", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives(
"#pragma include_alias(<A>, <B>)\n", Out));
EXPECT_STREQ("#pragma include_alias(<A>, <B>)\n", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#pragma clang\n", Out));
EXPECT_STREQ("", Out.data());
ASSERT_FALSE(
minimizeSourceToDependencyDirectives("#pragma clang module\n", Out));
EXPECT_STREQ("", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives(
"#pragma clang module impor\n", Out));
EXPECT_STREQ("", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives(
"#pragma clang module import\n", Out));
EXPECT_STREQ("#pragma clang module import\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, Include) {
SmallVector<char, 128> Out;
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#include \"A\"\n", Out));
EXPECT_STREQ("#include \"A\"\n", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#include <A>\n", Out));
EXPECT_STREQ("#include <A>\n", Out.data());
ASSERT_FALSE(
minimizeSourceToDependencyDirectives("#include_next <A>\n", Out));
EXPECT_STREQ("#include_next <A>\n", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#import <A>\n", Out));
EXPECT_STREQ("#import <A>\n", Out.data());
ASSERT_FALSE(
minimizeSourceToDependencyDirectives("#__include_macros <A>\n", Out));
EXPECT_STREQ("#__include_macros <A>\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, AtImport) {
SmallVector<char, 128> Out;
ASSERT_FALSE(minimizeSourceToDependencyDirectives("@import A;\n", Out));
EXPECT_STREQ("@import A;\n", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives(" @ import A;\n", Out));
EXPECT_STREQ("@import A;\n", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives("@import A\n;", Out));
EXPECT_STREQ("@import A;\n", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives("@import A.B;\n", Out));
EXPECT_STREQ("@import A.B;\n", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives(
"@import /*x*/ A /*x*/ . /*x*/ B /*x*/ \n /*x*/ ; /*x*/", Out));
EXPECT_STREQ("@import A.B;\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, AtImportFailures) {
SmallVector<char, 128> Out;
ASSERT_TRUE(minimizeSourceToDependencyDirectives("@import A\n", Out));
ASSERT_TRUE(minimizeSourceToDependencyDirectives("@import MACRO(A);\n", Out));
ASSERT_TRUE(minimizeSourceToDependencyDirectives("@import \" \";\n", Out));
}
TEST(MinimizeSourceToDependencyDirectivesTest, RawStringLiteral) {
SmallVector<char, 128> Out;
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#ifndef GUARD\n"
"#define GUARD\n"
"R\"()\"\n"
"#endif\n",
Out));
EXPECT_STREQ("#ifndef GUARD\n"
"#define GUARD\n"
"#endif\n",
Out.data());
bool RawStringLiteralResult = minimizeSourceToDependencyDirectives(
"#ifndef GUARD\n"
"#define GUARD\n"
R"raw(static constexpr char bytes[] = R"(-?:\,[]{}#&*!|>'"%@`)";)raw"
"\n"
"#endif\n",
Out);
ASSERT_FALSE(RawStringLiteralResult);
EXPECT_STREQ("#ifndef GUARD\n"
"#define GUARD\n"
"#endif\n",
Out.data());
bool RawStringLiteralResult2 = minimizeSourceToDependencyDirectives(
"#ifndef GUARD\n"
"#define GUARD\n"
R"raw(static constexpr char bytes[] = R"abc(-?:\,[]{}#&*!|>'"%@`)abc";)raw"
"\n"
"#endif\n",
Out);
ASSERT_FALSE(RawStringLiteralResult2);
EXPECT_STREQ("#ifndef GUARD\n"
"#define GUARD\n"
"#endif\n",
Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, SplitIdentifier) {
SmallVector<char, 128> Out;
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#if\\\n"
"ndef GUARD\n"
"#define GUARD\n"
"#endif\n",
Out));
EXPECT_STREQ("#ifndef GUARD\n"
"#define GUARD\n"
"#endif\n",
Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#define GUA\\\n"
"RD\n",
Out));
EXPECT_STREQ("#define GUARD\n", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#define GUA\\\r"
"RD\n",
Out));
EXPECT_STREQ("#define GUARD\n", Out.data());
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#define GUA\\\n"
" RD\n",
Out));
EXPECT_STREQ("#define GUA RD\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest,
WhitespaceAfterLineContinuationSlash) {
SmallVector<char, 128> Out;
ASSERT_FALSE(minimizeSourceToDependencyDirectives("#define A 1 + \\ \n"
"2 + \\\t\n"
"3\n",
Out));
EXPECT_STREQ("#define A 1 + 2 + 3\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, PoundWarningAndError) {
SmallVector<char, 128> Out;
for (auto Source : {
"#warning '\n#include <t.h>\n",
"#warning \"\n#include <t.h>\n",
"#warning /*\n#include <t.h>\n",
"#warning \\\n#include <t.h>\n#include <t.h>\n",
"#error '\n#include <t.h>\n",
"#error \"\n#include <t.h>\n",
"#error /*\n#include <t.h>\n",
"#error \\\n#include <t.h>\n#include <t.h>\n",
}) {
ASSERT_FALSE(minimizeSourceToDependencyDirectives(Source, Out));
EXPECT_STREQ("#include <t.h>\n", Out.data());
}
for (auto Source : {
"#warning \\\n#include <t.h>\n",
"#error \\\n#include <t.h>\n",
}) {
ASSERT_FALSE(minimizeSourceToDependencyDirectives(Source, Out));
EXPECT_STREQ("", Out.data());
}
for (auto Source : {
"#if MACRO\n#warning '\n#endif\n",
"#if MACRO\n#warning \"\n#endif\n",
"#if MACRO\n#warning /*\n#endif\n",
"#if MACRO\n#error '\n#endif\n",
"#if MACRO\n#error \"\n#endif\n",
"#if MACRO\n#error /*\n#endif\n",
}) {
ASSERT_FALSE(minimizeSourceToDependencyDirectives(Source, Out));
EXPECT_STREQ("#if MACRO\n#endif\n", Out.data());
}
}
TEST(MinimizeSourceToDependencyDirectivesTest, CharacterLiteral) {
SmallVector<char, 128> Out;
StringRef Source = R"(
#include <bob>
int a = 0'1;
int b = 0xfa'af'fa;
int c = 12 ' ';
#include <foo>
)";
ASSERT_FALSE(minimizeSourceToDependencyDirectives(Source, Out));
EXPECT_STREQ("#include <bob>\n#include <foo>\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, CharacterLiteralPrefixL) {
SmallVector<char, 128> Out;
StringRef Source = R"(L'P'
#if DEBUG
// '
#endif
#include <test.h>
)";
ASSERT_FALSE(minimizeSourceToDependencyDirectives(Source, Out));
EXPECT_STREQ("#if DEBUG\n#endif\n#include <test.h>\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, CharacterLiteralPrefixU) {
SmallVector<char, 128> Out;
StringRef Source = R"(int x = U'P';
#include <test.h>
// '
)";
ASSERT_FALSE(minimizeSourceToDependencyDirectives(Source, Out));
EXPECT_STREQ("#include <test.h>\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, CharacterLiteralPrefixu) {
SmallVector<char, 128> Out;
StringRef Source = R"(int x = u'b';
int y = u8'a';
int z = 128'78;
#include <test.h>
// '
)";
ASSERT_FALSE(minimizeSourceToDependencyDirectives(Source, Out));
EXPECT_STREQ("#include <test.h>\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, PragmaOnce) {
SmallVector<char, 128> Out;
SmallVector<Token, 4> Tokens;
StringRef Source = R"(// comment
#pragma once
// another comment
#include <test.h>
)";
ASSERT_FALSE(minimizeSourceToDependencyDirectives(Source, Out, Tokens));
EXPECT_STREQ("#pragma once\n#include <test.h>\n", Out.data());
ASSERT_EQ(Tokens.size(), 3u);
EXPECT_EQ(Tokens[0].K,
minimize_source_to_dependency_directives::pp_pragma_once);
Source = R"(// comment
#pragma once extra tokens
// another comment
#include <test.h>
)";
ASSERT_FALSE(minimizeSourceToDependencyDirectives(Source, Out));
EXPECT_STREQ("#pragma once\n#include <test.h>\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest,
SkipLineStringCharLiteralsUntilNewline) {
SmallVector<char, 128> Out;
StringRef Source = R"(#if NEVER_ENABLED
#define why(fmt, ...) #error don't try me
#endif
void foo();
)";
ASSERT_FALSE(minimizeSourceToDependencyDirectives(Source, Out));
EXPECT_STREQ(
"#if NEVER_ENABLED\n#define why(fmt,...) #error don't try me\n#endif\n",
Out.data());
Source = R"(#if NEVER_ENABLED
#define why(fmt, ...) "quote dropped
#endif
void foo();
)";
ASSERT_FALSE(minimizeSourceToDependencyDirectives(Source, Out));
EXPECT_STREQ(
"#if NEVER_ENABLED\n#define why(fmt,...) \"quote dropped\n#endif\n",
Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest,
SupportWhitespaceBeforeLineContinuationInStringSkipping) {
SmallVector<char, 128> Out;
StringRef Source = "#define X '\\ \t\nx'\nvoid foo() {}";
ASSERT_FALSE(minimizeSourceToDependencyDirectives(Source, Out));
EXPECT_STREQ("#define X '\\ \t\nx'\n", Out.data());
Source = "#define X \"\\ \r\nx\"\nvoid foo() {}";
ASSERT_FALSE(minimizeSourceToDependencyDirectives(Source, Out));
EXPECT_STREQ("#define X \"\\ \r\nx\"\n", Out.data());
Source = "#define X \"\\ \r\nx\n#include <x>\n";
ASSERT_FALSE(minimizeSourceToDependencyDirectives(Source, Out));
EXPECT_STREQ("#define X \"\\ \r\nx\n#include <x>\n", Out.data());
}
TEST(MinimizeSourceToDependencyDirectivesTest, CxxModules) {
SmallVector<char, 128> Out;
SmallVector<Token, 4> Tokens;
StringRef Source = R"(
module;
#include "textual-header.h"
export module m;
exp\
ort \
import \
:l [[rename]];
export void f();
void h() {
import.a = 3;
import = 3;
import <<= 3;
import->a = 3;
import();
import . a();
import a b d e d e f e;
import foo [[no_unique_address]];
import foo();
import f(:sefse);
import f(->a = 3);
}
)";
ASSERT_FALSE(minimizeSourceToDependencyDirectives(Source, Out, Tokens));
EXPECT_STREQ("#include \"textual-header.h\"\nexport module m;\n"
"export import :l [[rename]];\n"
"import <<= 3;\nimport a b d e d e f e;\n"
"import foo [[no_unique_address]];\nimport foo();\n"
"import f(:sefse);\nimport f(->a = 3);\n", Out.data());
ASSERT_EQ(Tokens.size(), 12u);
EXPECT_EQ(Tokens[0].K,
minimize_source_to_dependency_directives::pp_include);
EXPECT_EQ(Tokens[2].K,
minimize_source_to_dependency_directives::cxx_module_decl);
}
TEST(MinimizeSourceToDependencyDirectivesTest, SkippedPPRangesBasic) {
SmallString<128> Out;
SmallVector<Token, 32> Toks;
StringRef Source = "#ifndef GUARD\n"
"#define GUARD\n"
"void foo();\n"
"#endif\n";
ASSERT_FALSE(minimizeSourceToDependencyDirectives(Source, Out, Toks));
SmallVector<SkippedRange, 4> Ranges;
ASSERT_FALSE(computeSkippedRanges(Toks, Ranges));
EXPECT_EQ(Ranges.size(), 1u);
EXPECT_EQ(Ranges[0].Offset, 0);
EXPECT_EQ(Ranges[0].Length, (int)Out.find("#endif"));
}
TEST(MinimizeSourceToDependencyDirectivesTest, SkippedPPRangesBasicElifdef) {
SmallString<128> Out;
SmallVector<Token, 32> Toks;
StringRef Source = "#ifdef BLAH\n"
"void skip();\n"
"#elifdef BLAM\n"
"void skip();\n"
"#elifndef GUARD\n"
"#define GUARD\n"
"void foo();\n"
"#endif\n";
ASSERT_FALSE(minimizeSourceToDependencyDirectives(Source, Out, Toks));
SmallVector<SkippedRange, 4> Ranges;
ASSERT_FALSE(computeSkippedRanges(Toks, Ranges));
EXPECT_EQ(Ranges.size(), 3u);
EXPECT_EQ(Ranges[0].Offset, 0);
EXPECT_EQ(Ranges[0].Length, (int)Out.find("#elifdef"));
EXPECT_EQ(Ranges[1].Offset, (int)Out.find("#elifdef"));
EXPECT_EQ(Ranges[1].Offset + Ranges[1].Length, (int)Out.find("#elifndef"));
EXPECT_EQ(Ranges[2].Offset, (int)Out.find("#elifndef"));
EXPECT_EQ(Ranges[2].Offset + Ranges[2].Length, (int)Out.rfind("#endif"));
}
TEST(MinimizeSourceToDependencyDirectivesTest, SkippedPPRangesNested) {
SmallString<128> Out;
SmallVector<Token, 32> Toks;
StringRef Source = "#ifndef GUARD\n"
"#define GUARD\n"
"#if FOO\n"
"#include hello\n"
"#elif BAR\n"
"#include bye\n"
"#endif\n"
"#else\n"
"#include nothing\n"
"#endif\n";
ASSERT_FALSE(minimizeSourceToDependencyDirectives(Source, Out, Toks));
SmallVector<SkippedRange, 4> Ranges;
ASSERT_FALSE(computeSkippedRanges(Toks, Ranges));
EXPECT_EQ(Ranges.size(), 4u);
EXPECT_EQ(Ranges[0].Offset, (int)Out.find("#if FOO"));
EXPECT_EQ(Ranges[0].Offset + Ranges[0].Length, (int)Out.find("#elif"));
EXPECT_EQ(Ranges[1].Offset, (int)Out.find("#elif BAR"));
EXPECT_EQ(Ranges[1].Offset + Ranges[1].Length, (int)Out.find("#endif"));
EXPECT_EQ(Ranges[2].Offset, 0);
EXPECT_EQ(Ranges[2].Length, (int)Out.find("#else"));
EXPECT_EQ(Ranges[3].Offset, (int)Out.find("#else"));
EXPECT_EQ(Ranges[3].Offset + Ranges[3].Length, (int)Out.rfind("#endif"));
}
} // end anonymous namespace