//===- unittest/Format/FormatTestRawStrings.cpp - Formatting unit tests ---===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "clang/Format/Format.h" #include "../Tooling/ReplacementTest.h" #include "FormatTestUtils.h" #include "clang/Frontend/TextDiagnosticPrinter.h" #include "llvm/Support/Debug.h" #include "llvm/Support/MemoryBuffer.h" #include "gtest/gtest.h" #define DEBUG_TYPE "format-test" using clang::tooling::ReplacementTest; using clang::tooling::toReplacements; namespace clang { namespace format { namespace { class FormatTestRawStrings : public ::testing::Test { protected: enum StatusCheck { SC_ExpectComplete, SC_ExpectIncomplete, SC_DoNotCheck }; 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 Ranges(1, tooling::Range(0, Code.size())); FormattingAttemptStatus Status; tooling::Replacements Replaces = reformat(Style, Code, Ranges, "", &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(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); } int ReplacementCount; FormatStyle getRawStringPbStyleWithColumns(unsigned ColumnLimit) { FormatStyle Style = getLLVMStyle(); Style.ColumnLimit = ColumnLimit; Style.RawStringFormats = { { /*Language=*/FormatStyle::LK_TextProto, /*Delimiters=*/{"pb"}, /*EnclosingFunctions=*/{}, /*CanonicalDelimiter=*/"", /*BasedOnStyle=*/"google", }, }; return Style; } FormatStyle getRawStringLLVMCppStyleBasedOn(std::string BasedOnStyle) { FormatStyle Style = getLLVMStyle(); Style.RawStringFormats = { { /*Language=*/FormatStyle::LK_Cpp, /*Delimiters=*/{"cpp"}, /*EnclosingFunctions=*/{}, /*CanonicalDelimiter=*/"", BasedOnStyle, }, }; return Style; } FormatStyle getRawStringGoogleCppStyleBasedOn(std::string BasedOnStyle) { FormatStyle Style = getGoogleStyle(FormatStyle::LK_Cpp); Style.RawStringFormats = { { /*Language=*/FormatStyle::LK_Cpp, /*Delimiters=*/{"cpp"}, /*EnclosingFunctions=*/{}, /*CanonicalDelimiter=*/"", BasedOnStyle, }, }; return Style; } // Gcc 4.8 doesn't support raw string literals in macros, which breaks some // build bots. We use this function instead. void expect_eq(const std::string Expected, const std::string Actual) { EXPECT_EQ(Expected, Actual); } }; TEST_F(FormatTestRawStrings, ReformatsAccordingToBaseStyle) { // llvm style puts '*' on the right. // google style puts '*' on the left. // Use the llvm style if the raw string style has no BasedOnStyle. expect_eq(R"test(int *i = R"cpp(int *p = nullptr;)cpp")test", format(R"test(int * i = R"cpp(int * p = nullptr;)cpp")test", getRawStringLLVMCppStyleBasedOn(""))); // Use the google style if the raw string style has BasedOnStyle=google. expect_eq(R"test(int *i = R"cpp(int* p = nullptr;)cpp")test", format(R"test(int * i = R"cpp(int * p = nullptr;)cpp")test", getRawStringLLVMCppStyleBasedOn("google"))); // Use the llvm style if the raw string style has no BasedOnStyle=llvm. expect_eq(R"test(int* i = R"cpp(int *p = nullptr;)cpp")test", format(R"test(int * i = R"cpp(int * p = nullptr;)cpp")test", getRawStringGoogleCppStyleBasedOn("llvm"))); } TEST_F(FormatTestRawStrings, UsesConfigurationOverBaseStyle) { // llvm style puts '*' on the right. // google style puts '*' on the left. // Uses the configured google style inside raw strings even if BasedOnStyle in // the raw string format is llvm. FormatStyle Style = getGoogleStyle(FormatStyle::LK_Cpp); EXPECT_EQ(0, parseConfiguration("---\n" "Language: Cpp\n" "BasedOnStyle: Google", &Style).value()); Style.RawStringFormats = {{ FormatStyle::LK_Cpp, {"cpp"}, {}, /*CanonicalDelimiter=*/"", /*BasedOnStyle=*/"llvm", }}; expect_eq(R"test(int* i = R"cpp(int* j = 0;)cpp";)test", format(R"test(int * i = R"cpp(int * j = 0;)cpp";)test", Style)); } TEST_F(FormatTestRawStrings, MatchesDelimitersCaseSensitively) { // Don't touch the 'PB' raw string, format the 'pb' raw string. expect_eq(R"test( s = R"PB(item:1)PB"; t = R"pb(item: 1)pb";)test", format(R"test( s = R"PB(item:1)PB"; t = R"pb(item:1)pb";)test", getRawStringPbStyleWithColumns(40))); } TEST_F(FormatTestRawStrings, RespectsClangFormatOff) { expect_eq(R"test( // clang-format off s = R"pb(item: 1)pb"; // clang-format on t = R"pb(item: 1)pb";)test", format(R"test( // clang-format off s = R"pb(item: 1)pb"; // clang-format on t = R"pb(item: 1)pb";)test", getRawStringPbStyleWithColumns(40))); } TEST_F(FormatTestRawStrings, ReformatsShortRawStringsOnSingleLine) { expect_eq( R"test(P p = TP(R"pb()pb");)test", format( R"test(P p = TP(R"pb( )pb");)test", getRawStringPbStyleWithColumns(40))); expect_eq( R"test(P p = TP(R"pb(item_1: 1)pb");)test", format( R"test(P p = TP(R"pb(item_1:1)pb");)test", getRawStringPbStyleWithColumns(40))); expect_eq( R"test(P p = TP(R"pb(item_1: 1)pb");)test", format( R"test(P p = TP(R"pb( item_1 : 1 )pb");)test", getRawStringPbStyleWithColumns(40))); expect_eq( R"test(P p = TP(R"pb(item_1: 1 item_2: 2)pb");)test", format( R"test(P p = TP(R"pb(item_1:1 item_2:2)pb");)test", getRawStringPbStyleWithColumns(40))); // Merge two short lines into one. expect_eq(R"test( std::string s = R"pb( item_1: 1 item_2: 2 )pb"; )test", format(R"test( std::string s = R"pb( item_1:1 item_2:2 )pb"; )test", getRawStringPbStyleWithColumns(40))); } TEST_F(FormatTestRawStrings, BreaksShortRawStringsWhenNeeded) { // The raw string contains multiple submessage entries, so break for // readability. expect_eq(R"test( P p = TP(R"pb(item_1 < 1 > item_2: { 2 })pb");)test", format( R"test( P p = TP(R"pb(item_1<1> item_2:{2})pb");)test", getRawStringPbStyleWithColumns(40))); } TEST_F(FormatTestRawStrings, BreaksRawStringsExceedingColumnLimit) { expect_eq(R"test( P p = TPPPPPPPPPPPPPPP( R"pb(item_1: 1, item_2: 2)pb");)test", format(R"test( P p = TPPPPPPPPPPPPPPP(R"pb(item_1: 1, item_2: 2)pb");)test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( P p = TPPPPPPPPPPPPPPP( R"pb(item_1: 1, item_2: 2, item_3: 3)pb");)test", format(R"test( P p = TPPPPPPPPPPPPPPP(R"pb(item_1: 1, item_2: 2, item_3: 3)pb");)test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( P p = TP(R"pb(item_1 < 1 > item_2: < 2 > item_3 {})pb");)test", format(R"test( P p = TP(R"pb(item_1<1> item_2:<2> item_3{ })pb");)test", getRawStringPbStyleWithColumns(40))); expect_eq( R"test( P p = TP(R"pb(item_1: 1, item_2: 2, item_3: 3, item_4: 4)pb");)test", format( R"test( P p = TP(R"pb(item_1: 1, item_2: 2, item_3: 3, item_4: 4)pb");)test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( P p = TPPPPPPPPPPPPPPP( R"pb(item_1 < 1 >, item_2: { 2 }, item_3: < 3 >, item_4: { 4 })pb");)test", format(R"test( P p = TPPPPPPPPPPPPPPP(R"pb(item_1<1>, item_2: {2}, item_3: <3>, item_4:{4})pb");)test", getRawStringPbStyleWithColumns(40))); // Breaks before a short raw string exceeding the column limit. expect_eq(R"test( FFFFFFFFFFFFFFFFFFFFFFFFFFF( R"pb(key: 1)pb"); P p = TPPPPPPPPPPPPPPPPPPPP( R"pb(key: 2)pb"); auto TPPPPPPPPPPPPPPPPPPPP = R"pb(key: 3)pb"; P p = TPPPPPPPPPPPPPPPPPPPP( R"pb(i: 1, j: 2)pb"); int f(string s) { FFFFFFFFFFFFFFFFFFFFFFFFFFFFFF( R"pb(key: 1)pb"); P p = TPPPPPPPPPPPPPPPPPPPP( R"pb(key: 2)pb"); auto TPPPPPPPPPPPPPPPPPPPP = R"pb(key: 3)pb"; if (s.empty()) P p = TPPPPPPPPPPPPPPPPPPPP( R"pb(i: 1, j: 2)pb"); } )test", format(R"test( FFFFFFFFFFFFFFFFFFFFFFFFFFF(R"pb(key:1)pb"); P p = TPPPPPPPPPPPPPPPPPPPP(R"pb(key:2)pb"); auto TPPPPPPPPPPPPPPPPPPPP = R"pb(key:3)pb"; P p = TPPPPPPPPPPPPPPPPPPPP(R"pb(i: 1, j:2)pb"); int f(string s) { FFFFFFFFFFFFFFFFFFFFFFFFFFFFFF(R"pb(key:1)pb"); P p = TPPPPPPPPPPPPPPPPPPPP(R"pb(key:2)pb"); auto TPPPPPPPPPPPPPPPPPPPP = R"pb(key:3)pb"; if (s.empty()) P p = TPPPPPPPPPPPPPPPPPPPP(R"pb(i: 1, j:2)pb"); } )test", getRawStringPbStyleWithColumns(40))); } TEST_F(FormatTestRawStrings, FormatsRawStringArguments) { expect_eq(R"test( P p = TP(R"pb(key { 1 })pb", param_2);)test", format(R"test( P p = TP(R"pb(key{1})pb",param_2);)test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( PPPPPPPPPPPPP(R"pb(keykeyk)pb", param_2);)test", format(R"test( PPPPPPPPPPPPP(R"pb(keykeyk)pb", param_2);)test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( P p = TP( R"pb(item: { i: 1, s: 's' } item: { i: 2, s: 't' })pb");)test", format(R"test( P p = TP(R"pb(item: {i: 1, s: 's'} item: {i: 2, s: 't'})pb");)test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( FFFFFFFFFFFFFFFFFFF( R"pb(key: "value")pb", R"pb(key2: "value")pb");)test", format(R"test( FFFFFFFFFFFFFFFFFFF(R"pb(key: "value")pb", R"pb(key2: "value")pb");)test", getRawStringPbStyleWithColumns(40))); // Formats the first out of two arguments. expect_eq(R"test( FFFFFFFF(R"pb(key: 1)pb", argument2); struct S { const s = f(R"pb(key: 1)pb", argument2); void f() { if (gol) return g(R"pb(key: 1)pb", 132789237); return g(R"pb(key: 1)pb", "172893"); } };)test", format(R"test( FFFFFFFF(R"pb(key:1)pb", argument2); struct S { const s = f(R"pb(key:1)pb", argument2); void f() { if (gol) return g(R"pb(key:1)pb", 132789237); return g(R"pb(key:1)pb", "172893"); } };)test", getRawStringPbStyleWithColumns(40))); // Formats the second out of two arguments. expect_eq(R"test( FFFFFFFF(argument1, R"pb(key: 2)pb"); struct S { const s = f(argument1, R"pb(key: 2)pb"); void f() { if (gol) return g(12784137, R"pb(key: 2)pb"); return g(17283122, R"pb(key: 2)pb"); } };)test", format(R"test( FFFFFFFF(argument1, R"pb(key:2)pb"); struct S { const s = f(argument1, R"pb(key:2)pb"); void f() { if (gol) return g(12784137, R"pb(key:2)pb"); return g(17283122, R"pb(key:2)pb"); } };)test", getRawStringPbStyleWithColumns(40))); // Formats two short raw string arguments. expect_eq(R"test( FFFFF(R"pb(key: 1)pb", R"pb(key: 2)pb");)test", format(R"test( FFFFF(R"pb(key:1)pb", R"pb(key:2)pb");)test", getRawStringPbStyleWithColumns(40))); // TODO(krasimir): The original source code fits on one line, so the // non-optimizing formatter is chosen. But after the formatting in protos is // made, the code doesn't fit on one line anymore and further formatting // splits it. // // Should we disable raw string formatting for the non-optimizing formatter? expect_eq(R"test( FFFFFFF(R"pb(key: 1)pb", R"pb(key: 2)pb");)test", format(R"test( FFFFFFF(R"pb(key:1)pb", R"pb(key:2)pb");)test", getRawStringPbStyleWithColumns(40))); // Formats two short raw string arguments, puts second on newline. expect_eq(R"test( FFFFFFFF(R"pb(key: 1)pb", R"pb(key: 2)pb");)test", format(R"test( FFFFFFFF(R"pb(key:1)pb", R"pb(key:2)pb");)test", getRawStringPbStyleWithColumns(40))); // Formats both arguments. expect_eq(R"test( FFFFFFFF(R"pb(key: 1)pb", R"pb(key: 2)pb"); struct S { const s = f(R"pb(key: 1)pb", R"pb(key: 2)pb"); void f() { if (gol) return g(R"pb(key: 1)pb", R"pb(key: 2)pb"); return g(R"pb(k1)pb", R"pb(k2)pb"); } };)test", format(R"test( FFFFFFFF(R"pb(key:1)pb", R"pb(key:2)pb"); struct S { const s = f(R"pb(key:1)pb", R"pb(key:2)pb"); void f() { if (gol) return g(R"pb(key:1)pb", R"pb(key:2)pb"); return g(R"pb( k1 )pb", R"pb( k2 )pb"); } };)test", getRawStringPbStyleWithColumns(40))); } TEST_F(FormatTestRawStrings, RawStringStartingWithNewlines) { expect_eq(R"test( std::string s = R"pb( item_1: 1 )pb"; )test", format(R"test( std::string s = R"pb( item_1:1 )pb"; )test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( std::string s = R"pb( item_1: 1 )pb"; )test", format(R"test( std::string s = R"pb( item_1:1 )pb"; )test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( std::string s = R"pb( item_1: 1 )pb"; )test", format(R"test( std::string s = R"pb( item_1:1 )pb"; )test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( std::string s = R"pb( item_1: 1, item_2: 2 )pb"; )test", format(R"test( std::string s = R"pb( item_1:1, item_2:2 )pb"; )test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( std::string s = R"pb( book { title: "Alice's Adventures" author: "Lewis Caroll" } book { title: "Peter Pan" author: "J. M. Barrie" } )pb"; )test", format(R"test( std::string s = R"pb( book { title: "Alice's Adventures" author: "Lewis Caroll" } book { title: "Peter Pan" author: "J. M. Barrie" } )pb"; )test", getRawStringPbStyleWithColumns(40))); } TEST_F(FormatTestRawStrings, BreaksBeforeRawStrings) { expect_eq(R"test( ASSERT_TRUE( ParseFromString(R"pb(item_1: 1)pb"), ptr);)test", format(R"test( ASSERT_TRUE(ParseFromString(R"pb(item_1: 1)pb"), ptr);)test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( ASSERT_TRUE(toolong::ParseFromString( R"pb(item_1: 1)pb"), ptr);)test", format(R"test( ASSERT_TRUE(toolong::ParseFromString(R"pb(item_1: 1)pb"), ptr);)test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( ASSERT_TRUE(ParseFromString( R"pb(item_1: 1, item_2: 2)pb"), ptr);)test", format(R"test( ASSERT_TRUE(ParseFromString(R"pb(item_1: 1, item_2: 2)pb"), ptr);)test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( ASSERT_TRUE( ParseFromString( R"pb(item_1: 1 item_2: 2)pb"), ptr);)test", format(R"test( ASSERT_TRUE(ParseFromString(R"pb(item_1: 1 item_2: 2)pb"), ptr);)test", getRawStringPbStyleWithColumns(40))); } TEST_F(FormatTestRawStrings, RawStringsInOperands) { // Formats the raw string first operand of a binary operator expression. expect_eq(R"test(auto S = R"pb(item_1: 1)pb" + rest;)test", format(R"test(auto S = R"pb(item_1:1)pb" + rest;)test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( auto S = R"pb(item_1: 1, item_2: 2)pb" + rest;)test", format(R"test( auto S = R"pb(item_1:1,item_2:2)pb"+rest;)test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( auto S = R"pb(item_1: 1 item_2: 2)pb" + rest;)test", format(R"test( auto S = R"pb(item_1:1 item_2:2)pb"+rest;)test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( auto S = R"pb(item_1: 1, item_2: 2, item_3: 3)pb" + rest;)test", format(R"test( auto S = R"pb(item_1:1,item_2:2,item_3:3)pb"+rest;)test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( auto S = R"pb(item_1: 1, item_2: 2, item_3: 3)pb" + longlongrest;)test", format(R"test( auto S = R"pb(item_1:1,item_2:2,item_3:3)pb"+longlongrest;)test", getRawStringPbStyleWithColumns(40))); // Formats the raw string second operand of a binary operator expression. expect_eq(R"test(auto S = first + R"pb(item_1: 1)pb";)test", format(R"test(auto S = first + R"pb(item_1:1)pb";)test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( auto S = first + R"pb(item_1: 1, item_2: 2)pb";)test", format(R"test( auto S = first+R"pb(item_1:1,item_2:2)pb";)test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( auto S = first + R"pb(item_1: 1 item_2: 2)pb";)test", format(R"test( auto S = first+R"pb(item_1:1 item_2:2)pb";)test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( auto S = R"pb(item_1: 1, item_2: 2, item_3: 3)pb" + rest;)test", format(R"test( auto S = R"pb(item_1:1,item_2:2,item_3:3)pb"+rest;)test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( auto S = R"pb(item_1: 1, item_2: 2, item_3: 3)pb" + longlongrest;)test", format(R"test( auto S = R"pb(item_1:1,item_2:2,item_3:3)pb"+longlongrest;)test", getRawStringPbStyleWithColumns(40))); // Formats the raw string operands in expressions. expect_eq(R"test( auto S = R"pb(item_1: 1)pb" + R"pb(item_2: 2)pb"; )test", format(R"test( auto S=R"pb(item_1:1)pb"+R"pb(item_2:2)pb"; )test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( auto S = R"pb(item_1: 1)pb" + R"pb(item_2: 2)pb" + R"pb(item_3: 3)pb"; )test", format(R"test( auto S=R"pb(item_1:1)pb"+R"pb(item_2:2)pb"+R"pb(item_3:3)pb"; )test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( auto S = (count < 3) ? R"pb(item_1: 1)pb" : R"pb(item_2: 2)pb"; )test", format(R"test( auto S=(count<3)?R"pb(item_1:1)pb":R"pb(item_2:2)pb"; )test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( auto S = (count < 3) ? R"pb(item_1: 1, item_2: 2)pb" : R"pb(item_3: 3)pb"; )test", format(R"test( auto S=(count<3)?R"pb(item_1:1,item_2:2)pb":R"pb(item_3:3)pb"; )test", getRawStringPbStyleWithColumns(40))); expect_eq(R"test( auto S = (count < 3) ? R"pb(item_1: 1)pb" : R"pb(item_2: 2, item_3: 3)pb"; )test", format(R"test( auto S=(count<3)?R"pb(item_1:1)pb":R"pb(item_2:2,item_3:3)pb"; )test", getRawStringPbStyleWithColumns(40))); } TEST_F(FormatTestRawStrings, PrefixAndSuffixAlignment) { // Keep the suffix at the end of line if not on newline. expect_eq(R"test( int s() { auto S = PTP( R"pb( item_1: 1, item_2: 2)pb"); })test", format(R"test( int s() { auto S = PTP( R"pb( item_1: 1, item_2: 2)pb"); })test", getRawStringPbStyleWithColumns(20))); // Align the suffix with the surrounding indent if the prefix is not on // a line of its own. expect_eq(R"test( int s() { auto S = PTP(R"pb( item_1: 1, item_2: 2 )pb"); })test", format(R"test( int s() { auto S = PTP(R"pb( item_1: 1, item_2: 2 )pb"); })test", getRawStringPbStyleWithColumns(20))); // Align the prefix with the suffix if both the prefix and suffix are on a // line of their own. expect_eq(R"test( int s() { auto S = PTP( R"pb( item_1: 1, item_2: 2, )pb"); })test", format(R"test( int s() { auto S = PTP( R"pb( item_1: 1, item_2: 2, )pb"); })test", getRawStringPbStyleWithColumns(20))); } TEST_F(FormatTestRawStrings, EstimatesPenalty) { // The penalty for characters exceeding the column limit in the raw string // forces 'hh' to be put on a newline. expect_eq(R"test( ff(gggggg, hh(R"pb(key { i1: k1 i2: k2 })pb")); )test", format(R"test( ff(gggggg, hh(R"pb(key { i1: k1 i2: k2 })pb")); )test", getRawStringPbStyleWithColumns(20))); } TEST_F(FormatTestRawStrings, DontFormatNonRawStrings) { expect_eq(R"test(a = R"pb(key:value)";)test", format(R"test(a = R"pb(key:value)";)test", getRawStringPbStyleWithColumns(20))); } TEST_F(FormatTestRawStrings, FormatsRawStringsWithEnclosingFunctionName) { FormatStyle Style = getRawStringPbStyleWithColumns(40); Style.RawStringFormats[0].EnclosingFunctions.push_back( "PARSE_TEXT_PROTO"); Style.RawStringFormats[0].EnclosingFunctions.push_back("ParseTextProto"); expect_eq(R"test(a = PARSE_TEXT_PROTO(R"(key: value)");)test", format(R"test(a = PARSE_TEXT_PROTO(R"(key:value)");)test", Style)); expect_eq(R"test( a = PARSE_TEXT_PROTO /**/ ( /**/ R"(key: value)");)test", format(R"test( a = PARSE_TEXT_PROTO/**/(/**/R"(key:value)");)test", Style)); expect_eq(R"test( a = ParseTextProto( R"(key: value)");)test", format(R"test( a = ParseTextProto(R"(key:value)");)test", Style)); } TEST_F(FormatTestRawStrings, UpdatesToCanonicalDelimiters) { FormatStyle Style = getRawStringPbStyleWithColumns(25); Style.RawStringFormats[0].CanonicalDelimiter = "proto"; expect_eq(R"test(a = R"proto(key: value)proto";)test", format(R"test(a = R"pb(key:value)pb";)test", Style)); // Don't update to canonical delimiter if it occurs as a raw string suffix in // the raw string content. expect_eq(R"test(a = R"pb(key: ")proto")pb";)test", format(R"test(a = R"pb(key:")proto")pb";)test", Style)); } TEST_F(FormatTestRawStrings, PenalizesPrefixExcessChars) { FormatStyle Style = getRawStringPbStyleWithColumns(60); // The '(' in R"pb is at column 60, no break. expect_eq(R"test( xxxxxxxaaaaax wwwwwww = _Verxrrrrrrrr(PARSE_TEXT_PROTO(R"pb( Category: aaaaaaaaaaaaaaaaaaaaaaaaaa )pb")); )test", format(R"test( xxxxxxxaaaaax wwwwwww = _Verxrrrrrrrr(PARSE_TEXT_PROTO(R"pb( Category: aaaaaaaaaaaaaaaaaaaaaaaaaa )pb")); )test", Style)); // The '(' in R"pb is at column 61, break. expect_eq(R"test( xxxxxxxaaaaax wwwwwww = _Verxrrrrrrrrr(PARSE_TEXT_PROTO(R"pb( Category: aaaaaaaaaaaaaaaaaaaaaaaaaa )pb")); )test", format(R"test( xxxxxxxaaaaax wwwwwww = _Verxrrrrrrrrr(PARSE_TEXT_PROTO(R"pb( Category: aaaaaaaaaaaaaaaaaaaaaaaaaa )pb")); )test", Style)); } TEST_F(FormatTestRawStrings, KeepsRBraceFolloedByMoreLBracesOnSameLine) { FormatStyle Style = getRawStringPbStyleWithColumns(80); expect_eq( R"test( int f() { if (1) { TTTTTTTTTTTTTTTTTTTTT s = PARSE_TEXT_PROTO(R"pb( ttttttttt { ppppppppppppp { [cccccccccc.pppppppppppppp.TTTTTTTTTTTTTTTTTTTT] { field_1: "123_1" } [cccccccccc.pppppppppppppp.TTTTTTTTTTTTTTTTTTTT] { field_2: "123_2" } } } )pb"); } } )test", format( R"test( int f() { if (1) { TTTTTTTTTTTTTTTTTTTTT s = PARSE_TEXT_PROTO(R"pb( ttttttttt { ppppppppppppp { [cccccccccc.pppppppppppppp.TTTTTTTTTTTTTTTTTTTT] { field_1: "123_1" } [cccccccccc.pppppppppppppp.TTTTTTTTTTTTTTTTTTTT] { field_2: "123_2" }}} )pb"); } } )test", Style)); } TEST_F(FormatTestRawStrings, DoNotFormatUnrecognizedDelimitersInRecognizedFunctions) { FormatStyle Style = getRawStringPbStyleWithColumns(60); Style.RawStringFormats[0].EnclosingFunctions.push_back( "EqualsProto"); // EqualsProto is a recognized function, but the Raw delimiter is // unrecognized. Do not touch the string in this case, since it might be // special. expect_eq(R"test( void f() { aaaaaaaaa(bbbbbbbbb, EqualsProto(R"Raw( item { key: value } )Raw")); })test", format(R"test( void f() { aaaaaaaaa(bbbbbbbbb, EqualsProto(R"Raw( item { key: value } )Raw")); })test", Style)); } } // end namespace } // end namespace format } // end namespace clang