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      1 //===--- Format.cpp - Format C++ code -------------------------------------===//
      2 //
      3 //                     The LLVM Compiler Infrastructure
      4 //
      5 // This file is distributed under the University of Illinois Open Source
      6 // License. See LICENSE.TXT for details.
      7 //
      8 //===----------------------------------------------------------------------===//
      9 ///
     10 /// \file
     11 /// \brief This file implements functions declared in Format.h. This will be
     12 /// split into separate files as we go.
     13 ///
     14 //===----------------------------------------------------------------------===//
     15 
     16 #include "ContinuationIndenter.h"
     17 #include "TokenAnnotator.h"
     18 #include "UnwrappedLineParser.h"
     19 #include "WhitespaceManager.h"
     20 #include "clang/Basic/Diagnostic.h"
     21 #include "clang/Basic/DiagnosticOptions.h"
     22 #include "clang/Basic/SourceManager.h"
     23 #include "clang/Format/Format.h"
     24 #include "clang/Lex/Lexer.h"
     25 #include "llvm/ADT/STLExtras.h"
     26 #include "llvm/Support/Allocator.h"
     27 #include "llvm/Support/Debug.h"
     28 #include "llvm/Support/Path.h"
     29 #include "llvm/Support/YAMLTraits.h"
     30 #include <queue>
     31 #include <string>
     32 
     33 #define DEBUG_TYPE "format-formatter"
     34 
     35 using clang::format::FormatStyle;
     36 
     37 LLVM_YAML_IS_FLOW_SEQUENCE_VECTOR(std::string)
     38 
     39 namespace llvm {
     40 namespace yaml {
     41 template <> struct ScalarEnumerationTraits<FormatStyle::LanguageKind> {
     42   static void enumeration(IO &IO, FormatStyle::LanguageKind &Value) {
     43     IO.enumCase(Value, "Cpp", FormatStyle::LK_Cpp);
     44     IO.enumCase(Value, "JavaScript", FormatStyle::LK_JavaScript);
     45     IO.enumCase(Value, "Proto", FormatStyle::LK_Proto);
     46   }
     47 };
     48 
     49 template <> struct ScalarEnumerationTraits<FormatStyle::LanguageStandard> {
     50   static void enumeration(IO &IO, FormatStyle::LanguageStandard &Value) {
     51     IO.enumCase(Value, "Cpp03", FormatStyle::LS_Cpp03);
     52     IO.enumCase(Value, "C++03", FormatStyle::LS_Cpp03);
     53     IO.enumCase(Value, "Cpp11", FormatStyle::LS_Cpp11);
     54     IO.enumCase(Value, "C++11", FormatStyle::LS_Cpp11);
     55     IO.enumCase(Value, "Auto", FormatStyle::LS_Auto);
     56   }
     57 };
     58 
     59 template <> struct ScalarEnumerationTraits<FormatStyle::UseTabStyle> {
     60   static void enumeration(IO &IO, FormatStyle::UseTabStyle &Value) {
     61     IO.enumCase(Value, "Never", FormatStyle::UT_Never);
     62     IO.enumCase(Value, "false", FormatStyle::UT_Never);
     63     IO.enumCase(Value, "Always", FormatStyle::UT_Always);
     64     IO.enumCase(Value, "true", FormatStyle::UT_Always);
     65     IO.enumCase(Value, "ForIndentation", FormatStyle::UT_ForIndentation);
     66   }
     67 };
     68 
     69 template <> struct ScalarEnumerationTraits<FormatStyle::ShortFunctionStyle> {
     70   static void enumeration(IO &IO, FormatStyle::ShortFunctionStyle &Value) {
     71     IO.enumCase(Value, "None", FormatStyle::SFS_None);
     72     IO.enumCase(Value, "false", FormatStyle::SFS_None);
     73     IO.enumCase(Value, "All", FormatStyle::SFS_All);
     74     IO.enumCase(Value, "true", FormatStyle::SFS_All);
     75     IO.enumCase(Value, "Inline", FormatStyle::SFS_Inline);
     76   }
     77 };
     78 
     79 template <> struct ScalarEnumerationTraits<FormatStyle::BraceBreakingStyle> {
     80   static void enumeration(IO &IO, FormatStyle::BraceBreakingStyle &Value) {
     81     IO.enumCase(Value, "Attach", FormatStyle::BS_Attach);
     82     IO.enumCase(Value, "Linux", FormatStyle::BS_Linux);
     83     IO.enumCase(Value, "Stroustrup", FormatStyle::BS_Stroustrup);
     84     IO.enumCase(Value, "Allman", FormatStyle::BS_Allman);
     85     IO.enumCase(Value, "GNU", FormatStyle::BS_GNU);
     86   }
     87 };
     88 
     89 template <>
     90 struct ScalarEnumerationTraits<FormatStyle::NamespaceIndentationKind> {
     91   static void enumeration(IO &IO,
     92                           FormatStyle::NamespaceIndentationKind &Value) {
     93     IO.enumCase(Value, "None", FormatStyle::NI_None);
     94     IO.enumCase(Value, "Inner", FormatStyle::NI_Inner);
     95     IO.enumCase(Value, "All", FormatStyle::NI_All);
     96   }
     97 };
     98 
     99 template <>
    100 struct ScalarEnumerationTraits<FormatStyle::PointerAlignmentStyle> {
    101   static void enumeration(IO &IO,
    102                           FormatStyle::PointerAlignmentStyle &Value) {
    103     IO.enumCase(Value, "Middle", FormatStyle::PAS_Middle);
    104     IO.enumCase(Value, "Left", FormatStyle::PAS_Left);
    105     IO.enumCase(Value, "Right", FormatStyle::PAS_Right);
    106 
    107     // For backward compability.
    108     IO.enumCase(Value, "true", FormatStyle::PAS_Left);
    109     IO.enumCase(Value, "false", FormatStyle::PAS_Right);
    110   }
    111 };
    112 
    113 template <>
    114 struct ScalarEnumerationTraits<FormatStyle::SpaceBeforeParensOptions> {
    115   static void enumeration(IO &IO,
    116                           FormatStyle::SpaceBeforeParensOptions &Value) {
    117     IO.enumCase(Value, "Never", FormatStyle::SBPO_Never);
    118     IO.enumCase(Value, "ControlStatements",
    119                 FormatStyle::SBPO_ControlStatements);
    120     IO.enumCase(Value, "Always", FormatStyle::SBPO_Always);
    121 
    122     // For backward compatibility.
    123     IO.enumCase(Value, "false", FormatStyle::SBPO_Never);
    124     IO.enumCase(Value, "true", FormatStyle::SBPO_ControlStatements);
    125   }
    126 };
    127 
    128 template <> struct MappingTraits<FormatStyle> {
    129   static void mapping(IO &IO, FormatStyle &Style) {
    130     // When reading, read the language first, we need it for getPredefinedStyle.
    131     IO.mapOptional("Language", Style.Language);
    132 
    133     if (IO.outputting()) {
    134       StringRef StylesArray[] = { "LLVM",    "Google", "Chromium",
    135                                   "Mozilla", "WebKit", "GNU" };
    136       ArrayRef<StringRef> Styles(StylesArray);
    137       for (size_t i = 0, e = Styles.size(); i < e; ++i) {
    138         StringRef StyleName(Styles[i]);
    139         FormatStyle PredefinedStyle;
    140         if (getPredefinedStyle(StyleName, Style.Language, &PredefinedStyle) &&
    141             Style == PredefinedStyle) {
    142           IO.mapOptional("# BasedOnStyle", StyleName);
    143           break;
    144         }
    145       }
    146     } else {
    147       StringRef BasedOnStyle;
    148       IO.mapOptional("BasedOnStyle", BasedOnStyle);
    149       if (!BasedOnStyle.empty()) {
    150         FormatStyle::LanguageKind OldLanguage = Style.Language;
    151         FormatStyle::LanguageKind Language =
    152             ((FormatStyle *)IO.getContext())->Language;
    153         if (!getPredefinedStyle(BasedOnStyle, Language, &Style)) {
    154           IO.setError(Twine("Unknown value for BasedOnStyle: ", BasedOnStyle));
    155           return;
    156         }
    157         Style.Language = OldLanguage;
    158       }
    159     }
    160 
    161     IO.mapOptional("AccessModifierOffset", Style.AccessModifierOffset);
    162     IO.mapOptional("ConstructorInitializerIndentWidth",
    163                    Style.ConstructorInitializerIndentWidth);
    164     IO.mapOptional("AlignEscapedNewlinesLeft", Style.AlignEscapedNewlinesLeft);
    165     IO.mapOptional("AlignTrailingComments", Style.AlignTrailingComments);
    166     IO.mapOptional("AllowAllParametersOfDeclarationOnNextLine",
    167                    Style.AllowAllParametersOfDeclarationOnNextLine);
    168     IO.mapOptional("AllowShortBlocksOnASingleLine",
    169                    Style.AllowShortBlocksOnASingleLine);
    170     IO.mapOptional("AllowShortIfStatementsOnASingleLine",
    171                    Style.AllowShortIfStatementsOnASingleLine);
    172     IO.mapOptional("AllowShortLoopsOnASingleLine",
    173                    Style.AllowShortLoopsOnASingleLine);
    174     IO.mapOptional("AllowShortFunctionsOnASingleLine",
    175                    Style.AllowShortFunctionsOnASingleLine);
    176     IO.mapOptional("AlwaysBreakTemplateDeclarations",
    177                    Style.AlwaysBreakTemplateDeclarations);
    178     IO.mapOptional("AlwaysBreakBeforeMultilineStrings",
    179                    Style.AlwaysBreakBeforeMultilineStrings);
    180     IO.mapOptional("BreakBeforeBinaryOperators",
    181                    Style.BreakBeforeBinaryOperators);
    182     IO.mapOptional("BreakBeforeTernaryOperators",
    183                    Style.BreakBeforeTernaryOperators);
    184     IO.mapOptional("BreakConstructorInitializersBeforeComma",
    185                    Style.BreakConstructorInitializersBeforeComma);
    186     IO.mapOptional("BinPackParameters", Style.BinPackParameters);
    187     IO.mapOptional("ColumnLimit", Style.ColumnLimit);
    188     IO.mapOptional("ConstructorInitializerAllOnOneLineOrOnePerLine",
    189                    Style.ConstructorInitializerAllOnOneLineOrOnePerLine);
    190     IO.mapOptional("DerivePointerAlignment", Style.DerivePointerAlignment);
    191     IO.mapOptional("ExperimentalAutoDetectBinPacking",
    192                    Style.ExperimentalAutoDetectBinPacking);
    193     IO.mapOptional("IndentCaseLabels", Style.IndentCaseLabels);
    194     IO.mapOptional("IndentWrappedFunctionNames",
    195                    Style.IndentWrappedFunctionNames);
    196     IO.mapOptional("IndentFunctionDeclarationAfterType",
    197                    Style.IndentWrappedFunctionNames);
    198     IO.mapOptional("MaxEmptyLinesToKeep", Style.MaxEmptyLinesToKeep);
    199     IO.mapOptional("KeepEmptyLinesAtTheStartOfBlocks",
    200                    Style.KeepEmptyLinesAtTheStartOfBlocks);
    201     IO.mapOptional("NamespaceIndentation", Style.NamespaceIndentation);
    202     IO.mapOptional("ObjCSpaceAfterProperty", Style.ObjCSpaceAfterProperty);
    203     IO.mapOptional("ObjCSpaceBeforeProtocolList",
    204                    Style.ObjCSpaceBeforeProtocolList);
    205     IO.mapOptional("PenaltyBreakBeforeFirstCallParameter",
    206                    Style.PenaltyBreakBeforeFirstCallParameter);
    207     IO.mapOptional("PenaltyBreakComment", Style.PenaltyBreakComment);
    208     IO.mapOptional("PenaltyBreakString", Style.PenaltyBreakString);
    209     IO.mapOptional("PenaltyBreakFirstLessLess",
    210                    Style.PenaltyBreakFirstLessLess);
    211     IO.mapOptional("PenaltyExcessCharacter", Style.PenaltyExcessCharacter);
    212     IO.mapOptional("PenaltyReturnTypeOnItsOwnLine",
    213                    Style.PenaltyReturnTypeOnItsOwnLine);
    214     IO.mapOptional("PointerAlignment", Style.PointerAlignment);
    215     IO.mapOptional("SpacesBeforeTrailingComments",
    216                    Style.SpacesBeforeTrailingComments);
    217     IO.mapOptional("Cpp11BracedListStyle", Style.Cpp11BracedListStyle);
    218     IO.mapOptional("Standard", Style.Standard);
    219     IO.mapOptional("IndentWidth", Style.IndentWidth);
    220     IO.mapOptional("TabWidth", Style.TabWidth);
    221     IO.mapOptional("UseTab", Style.UseTab);
    222     IO.mapOptional("BreakBeforeBraces", Style.BreakBeforeBraces);
    223     IO.mapOptional("SpacesInParentheses", Style.SpacesInParentheses);
    224     IO.mapOptional("SpacesInAngles", Style.SpacesInAngles);
    225     IO.mapOptional("SpaceInEmptyParentheses", Style.SpaceInEmptyParentheses);
    226     IO.mapOptional("SpacesInCStyleCastParentheses",
    227                    Style.SpacesInCStyleCastParentheses);
    228     IO.mapOptional("SpacesInContainerLiterals",
    229                    Style.SpacesInContainerLiterals);
    230     IO.mapOptional("SpaceBeforeAssignmentOperators",
    231                    Style.SpaceBeforeAssignmentOperators);
    232     IO.mapOptional("ContinuationIndentWidth", Style.ContinuationIndentWidth);
    233     IO.mapOptional("CommentPragmas", Style.CommentPragmas);
    234     IO.mapOptional("ForEachMacros", Style.ForEachMacros);
    235 
    236     // For backward compatibility.
    237     if (!IO.outputting()) {
    238       IO.mapOptional("SpaceAfterControlStatementKeyword",
    239                      Style.SpaceBeforeParens);
    240       IO.mapOptional("PointerBindsToType", Style.PointerAlignment);
    241       IO.mapOptional("DerivePointerBinding", Style.DerivePointerAlignment);
    242     }
    243     IO.mapOptional("SpaceBeforeParens", Style.SpaceBeforeParens);
    244     IO.mapOptional("DisableFormat", Style.DisableFormat);
    245   }
    246 };
    247 
    248 // Allows to read vector<FormatStyle> while keeping default values.
    249 // IO.getContext() should contain a pointer to the FormatStyle structure, that
    250 // will be used to get default values for missing keys.
    251 // If the first element has no Language specified, it will be treated as the
    252 // default one for the following elements.
    253 template <> struct DocumentListTraits<std::vector<FormatStyle> > {
    254   static size_t size(IO &IO, std::vector<FormatStyle> &Seq) {
    255     return Seq.size();
    256   }
    257   static FormatStyle &element(IO &IO, std::vector<FormatStyle> &Seq,
    258                               size_t Index) {
    259     if (Index >= Seq.size()) {
    260       assert(Index == Seq.size());
    261       FormatStyle Template;
    262       if (Seq.size() > 0 && Seq[0].Language == FormatStyle::LK_None) {
    263         Template = Seq[0];
    264       } else {
    265         Template = *((const FormatStyle *)IO.getContext());
    266         Template.Language = FormatStyle::LK_None;
    267       }
    268       Seq.resize(Index + 1, Template);
    269     }
    270     return Seq[Index];
    271   }
    272 };
    273 }
    274 }
    275 
    276 namespace clang {
    277 namespace format {
    278 
    279 const std::error_category &getParseCategory() {
    280   static ParseErrorCategory C;
    281   return C;
    282 }
    283 std::error_code make_error_code(ParseError e) {
    284   return std::error_code(static_cast<int>(e), getParseCategory());
    285 }
    286 
    287 const char *ParseErrorCategory::name() const LLVM_NOEXCEPT {
    288   return "clang-format.parse_error";
    289 }
    290 
    291 std::string ParseErrorCategory::message(int EV) const {
    292   switch (static_cast<ParseError>(EV)) {
    293   case ParseError::Success:
    294     return "Success";
    295   case ParseError::Error:
    296     return "Invalid argument";
    297   case ParseError::Unsuitable:
    298     return "Unsuitable";
    299   }
    300   llvm_unreachable("unexpected parse error");
    301 }
    302 
    303 FormatStyle getLLVMStyle() {
    304   FormatStyle LLVMStyle;
    305   LLVMStyle.Language = FormatStyle::LK_Cpp;
    306   LLVMStyle.AccessModifierOffset = -2;
    307   LLVMStyle.AlignEscapedNewlinesLeft = false;
    308   LLVMStyle.AlignTrailingComments = true;
    309   LLVMStyle.AllowAllParametersOfDeclarationOnNextLine = true;
    310   LLVMStyle.AllowShortFunctionsOnASingleLine = FormatStyle::SFS_All;
    311   LLVMStyle.AllowShortBlocksOnASingleLine = false;
    312   LLVMStyle.AllowShortIfStatementsOnASingleLine = false;
    313   LLVMStyle.AllowShortLoopsOnASingleLine = false;
    314   LLVMStyle.AlwaysBreakBeforeMultilineStrings = false;
    315   LLVMStyle.AlwaysBreakTemplateDeclarations = false;
    316   LLVMStyle.BinPackParameters = true;
    317   LLVMStyle.BreakBeforeBinaryOperators = false;
    318   LLVMStyle.BreakBeforeTernaryOperators = true;
    319   LLVMStyle.BreakBeforeBraces = FormatStyle::BS_Attach;
    320   LLVMStyle.BreakConstructorInitializersBeforeComma = false;
    321   LLVMStyle.ColumnLimit = 80;
    322   LLVMStyle.CommentPragmas = "^ IWYU pragma:";
    323   LLVMStyle.ConstructorInitializerAllOnOneLineOrOnePerLine = false;
    324   LLVMStyle.ConstructorInitializerIndentWidth = 4;
    325   LLVMStyle.ContinuationIndentWidth = 4;
    326   LLVMStyle.Cpp11BracedListStyle = true;
    327   LLVMStyle.DerivePointerAlignment = false;
    328   LLVMStyle.ExperimentalAutoDetectBinPacking = false;
    329   LLVMStyle.ForEachMacros.push_back("foreach");
    330   LLVMStyle.ForEachMacros.push_back("Q_FOREACH");
    331   LLVMStyle.ForEachMacros.push_back("BOOST_FOREACH");
    332   LLVMStyle.IndentCaseLabels = false;
    333   LLVMStyle.IndentWrappedFunctionNames = false;
    334   LLVMStyle.IndentWidth = 2;
    335   LLVMStyle.TabWidth = 8;
    336   LLVMStyle.MaxEmptyLinesToKeep = 1;
    337   LLVMStyle.KeepEmptyLinesAtTheStartOfBlocks = true;
    338   LLVMStyle.NamespaceIndentation = FormatStyle::NI_None;
    339   LLVMStyle.ObjCSpaceAfterProperty = false;
    340   LLVMStyle.ObjCSpaceBeforeProtocolList = true;
    341   LLVMStyle.PointerAlignment = FormatStyle::PAS_Right;
    342   LLVMStyle.SpacesBeforeTrailingComments = 1;
    343   LLVMStyle.Standard = FormatStyle::LS_Cpp11;
    344   LLVMStyle.UseTab = FormatStyle::UT_Never;
    345   LLVMStyle.SpacesInParentheses = false;
    346   LLVMStyle.SpaceInEmptyParentheses = false;
    347   LLVMStyle.SpacesInContainerLiterals = true;
    348   LLVMStyle.SpacesInCStyleCastParentheses = false;
    349   LLVMStyle.SpaceBeforeParens = FormatStyle::SBPO_ControlStatements;
    350   LLVMStyle.SpaceBeforeAssignmentOperators = true;
    351   LLVMStyle.SpacesInAngles = false;
    352 
    353   LLVMStyle.PenaltyBreakComment = 300;
    354   LLVMStyle.PenaltyBreakFirstLessLess = 120;
    355   LLVMStyle.PenaltyBreakString = 1000;
    356   LLVMStyle.PenaltyExcessCharacter = 1000000;
    357   LLVMStyle.PenaltyReturnTypeOnItsOwnLine = 60;
    358   LLVMStyle.PenaltyBreakBeforeFirstCallParameter = 19;
    359 
    360   LLVMStyle.DisableFormat = false;
    361 
    362   return LLVMStyle;
    363 }
    364 
    365 FormatStyle getGoogleStyle(FormatStyle::LanguageKind Language) {
    366   FormatStyle GoogleStyle = getLLVMStyle();
    367   GoogleStyle.Language = Language;
    368 
    369   GoogleStyle.AccessModifierOffset = -1;
    370   GoogleStyle.AlignEscapedNewlinesLeft = true;
    371   GoogleStyle.AllowShortIfStatementsOnASingleLine = true;
    372   GoogleStyle.AllowShortLoopsOnASingleLine = true;
    373   GoogleStyle.AlwaysBreakBeforeMultilineStrings = true;
    374   GoogleStyle.AlwaysBreakTemplateDeclarations = true;
    375   GoogleStyle.ConstructorInitializerAllOnOneLineOrOnePerLine = true;
    376   GoogleStyle.DerivePointerAlignment = true;
    377   GoogleStyle.IndentCaseLabels = true;
    378   GoogleStyle.KeepEmptyLinesAtTheStartOfBlocks = false;
    379   GoogleStyle.ObjCSpaceAfterProperty = false;
    380   GoogleStyle.ObjCSpaceBeforeProtocolList = false;
    381   GoogleStyle.PointerAlignment = FormatStyle::PAS_Left;
    382   GoogleStyle.SpacesBeforeTrailingComments = 2;
    383   GoogleStyle.Standard = FormatStyle::LS_Auto;
    384 
    385   GoogleStyle.PenaltyReturnTypeOnItsOwnLine = 200;
    386   GoogleStyle.PenaltyBreakBeforeFirstCallParameter = 1;
    387 
    388   if (Language == FormatStyle::LK_JavaScript) {
    389     GoogleStyle.BreakBeforeTernaryOperators = false;
    390     GoogleStyle.MaxEmptyLinesToKeep = 3;
    391     GoogleStyle.SpacesInContainerLiterals = false;
    392   } else if (Language == FormatStyle::LK_Proto) {
    393     GoogleStyle.AllowShortFunctionsOnASingleLine = FormatStyle::SFS_None;
    394     GoogleStyle.SpacesInContainerLiterals = false;
    395   }
    396 
    397   return GoogleStyle;
    398 }
    399 
    400 FormatStyle getChromiumStyle(FormatStyle::LanguageKind Language) {
    401   FormatStyle ChromiumStyle = getGoogleStyle(Language);
    402   ChromiumStyle.AllowAllParametersOfDeclarationOnNextLine = false;
    403   ChromiumStyle.AllowShortFunctionsOnASingleLine = FormatStyle::SFS_Inline;
    404   ChromiumStyle.AllowShortIfStatementsOnASingleLine = false;
    405   ChromiumStyle.AllowShortLoopsOnASingleLine = false;
    406   ChromiumStyle.BinPackParameters = false;
    407   ChromiumStyle.DerivePointerAlignment = false;
    408   ChromiumStyle.Standard = FormatStyle::LS_Cpp03;
    409   return ChromiumStyle;
    410 }
    411 
    412 FormatStyle getMozillaStyle() {
    413   FormatStyle MozillaStyle = getLLVMStyle();
    414   MozillaStyle.AllowAllParametersOfDeclarationOnNextLine = false;
    415   MozillaStyle.Cpp11BracedListStyle = false;
    416   MozillaStyle.ConstructorInitializerAllOnOneLineOrOnePerLine = true;
    417   MozillaStyle.DerivePointerAlignment = true;
    418   MozillaStyle.IndentCaseLabels = true;
    419   MozillaStyle.ObjCSpaceAfterProperty = true;
    420   MozillaStyle.ObjCSpaceBeforeProtocolList = false;
    421   MozillaStyle.PenaltyReturnTypeOnItsOwnLine = 200;
    422   MozillaStyle.PointerAlignment = FormatStyle::PAS_Left;
    423   MozillaStyle.Standard = FormatStyle::LS_Cpp03;
    424   return MozillaStyle;
    425 }
    426 
    427 FormatStyle getWebKitStyle() {
    428   FormatStyle Style = getLLVMStyle();
    429   Style.AccessModifierOffset = -4;
    430   Style.AlignTrailingComments = false;
    431   Style.BreakBeforeBinaryOperators = true;
    432   Style.BreakBeforeBraces = FormatStyle::BS_Stroustrup;
    433   Style.BreakConstructorInitializersBeforeComma = true;
    434   Style.Cpp11BracedListStyle = false;
    435   Style.ColumnLimit = 0;
    436   Style.IndentWidth = 4;
    437   Style.NamespaceIndentation = FormatStyle::NI_Inner;
    438   Style.ObjCSpaceAfterProperty = true;
    439   Style.PointerAlignment = FormatStyle::PAS_Left;
    440   Style.Standard = FormatStyle::LS_Cpp03;
    441   return Style;
    442 }
    443 
    444 FormatStyle getGNUStyle() {
    445   FormatStyle Style = getLLVMStyle();
    446   Style.BreakBeforeBinaryOperators = true;
    447   Style.BreakBeforeBraces = FormatStyle::BS_GNU;
    448   Style.BreakBeforeTernaryOperators = true;
    449   Style.Cpp11BracedListStyle = false;
    450   Style.ColumnLimit = 79;
    451   Style.SpaceBeforeParens = FormatStyle::SBPO_Always;
    452   Style.Standard = FormatStyle::LS_Cpp03;
    453   return Style;
    454 }
    455 
    456 FormatStyle getNoStyle() {
    457   FormatStyle NoStyle = getLLVMStyle();
    458   NoStyle.DisableFormat = true;
    459   return NoStyle;
    460 }
    461 
    462 bool getPredefinedStyle(StringRef Name, FormatStyle::LanguageKind Language,
    463                         FormatStyle *Style) {
    464   if (Name.equals_lower("llvm")) {
    465     *Style = getLLVMStyle();
    466   } else if (Name.equals_lower("chromium")) {
    467     *Style = getChromiumStyle(Language);
    468   } else if (Name.equals_lower("mozilla")) {
    469     *Style = getMozillaStyle();
    470   } else if (Name.equals_lower("google")) {
    471     *Style = getGoogleStyle(Language);
    472   } else if (Name.equals_lower("webkit")) {
    473     *Style = getWebKitStyle();
    474   } else if (Name.equals_lower("gnu")) {
    475     *Style = getGNUStyle();
    476   } else if (Name.equals_lower("none")) {
    477     *Style = getNoStyle();
    478   } else {
    479     return false;
    480   }
    481 
    482   Style->Language = Language;
    483   return true;
    484 }
    485 
    486 std::error_code parseConfiguration(StringRef Text, FormatStyle *Style) {
    487   assert(Style);
    488   FormatStyle::LanguageKind Language = Style->Language;
    489   assert(Language != FormatStyle::LK_None);
    490   if (Text.trim().empty())
    491     return make_error_code(ParseError::Error);
    492 
    493   std::vector<FormatStyle> Styles;
    494   llvm::yaml::Input Input(Text);
    495   // DocumentListTraits<vector<FormatStyle>> uses the context to get default
    496   // values for the fields, keys for which are missing from the configuration.
    497   // Mapping also uses the context to get the language to find the correct
    498   // base style.
    499   Input.setContext(Style);
    500   Input >> Styles;
    501   if (Input.error())
    502     return Input.error();
    503 
    504   for (unsigned i = 0; i < Styles.size(); ++i) {
    505     // Ensures that only the first configuration can skip the Language option.
    506     if (Styles[i].Language == FormatStyle::LK_None && i != 0)
    507       return make_error_code(ParseError::Error);
    508     // Ensure that each language is configured at most once.
    509     for (unsigned j = 0; j < i; ++j) {
    510       if (Styles[i].Language == Styles[j].Language) {
    511         DEBUG(llvm::dbgs()
    512               << "Duplicate languages in the config file on positions " << j
    513               << " and " << i << "\n");
    514         return make_error_code(ParseError::Error);
    515       }
    516     }
    517   }
    518   // Look for a suitable configuration starting from the end, so we can
    519   // find the configuration for the specific language first, and the default
    520   // configuration (which can only be at slot 0) after it.
    521   for (int i = Styles.size() - 1; i >= 0; --i) {
    522     if (Styles[i].Language == Language ||
    523         Styles[i].Language == FormatStyle::LK_None) {
    524       *Style = Styles[i];
    525       Style->Language = Language;
    526       return make_error_code(ParseError::Success);
    527     }
    528   }
    529   return make_error_code(ParseError::Unsuitable);
    530 }
    531 
    532 std::string configurationAsText(const FormatStyle &Style) {
    533   std::string Text;
    534   llvm::raw_string_ostream Stream(Text);
    535   llvm::yaml::Output Output(Stream);
    536   // We use the same mapping method for input and output, so we need a non-const
    537   // reference here.
    538   FormatStyle NonConstStyle = Style;
    539   Output << NonConstStyle;
    540   return Stream.str();
    541 }
    542 
    543 namespace {
    544 
    545 class NoColumnLimitFormatter {
    546 public:
    547   NoColumnLimitFormatter(ContinuationIndenter *Indenter) : Indenter(Indenter) {}
    548 
    549   /// \brief Formats the line starting at \p State, simply keeping all of the
    550   /// input's line breaking decisions.
    551   void format(unsigned FirstIndent, const AnnotatedLine *Line) {
    552     LineState State =
    553         Indenter->getInitialState(FirstIndent, Line, /*DryRun=*/false);
    554     while (State.NextToken) {
    555       bool Newline =
    556           Indenter->mustBreak(State) ||
    557           (Indenter->canBreak(State) && State.NextToken->NewlinesBefore > 0);
    558       Indenter->addTokenToState(State, Newline, /*DryRun=*/false);
    559     }
    560   }
    561 
    562 private:
    563   ContinuationIndenter *Indenter;
    564 };
    565 
    566 class LineJoiner {
    567 public:
    568   LineJoiner(const FormatStyle &Style) : Style(Style) {}
    569 
    570   /// \brief Calculates how many lines can be merged into 1 starting at \p I.
    571   unsigned
    572   tryFitMultipleLinesInOne(unsigned Indent,
    573                            SmallVectorImpl<AnnotatedLine *>::const_iterator I,
    574                            SmallVectorImpl<AnnotatedLine *>::const_iterator E) {
    575     // We can never merge stuff if there are trailing line comments.
    576     const AnnotatedLine *TheLine = *I;
    577     if (TheLine->Last->Type == TT_LineComment)
    578       return 0;
    579 
    580     if (Style.ColumnLimit > 0 && Indent > Style.ColumnLimit)
    581       return 0;
    582 
    583     unsigned Limit =
    584         Style.ColumnLimit == 0 ? UINT_MAX : Style.ColumnLimit - Indent;
    585     // If we already exceed the column limit, we set 'Limit' to 0. The different
    586     // tryMerge..() functions can then decide whether to still do merging.
    587     Limit = TheLine->Last->TotalLength > Limit
    588                 ? 0
    589                 : Limit - TheLine->Last->TotalLength;
    590 
    591     if (I + 1 == E || I[1]->Type == LT_Invalid || I[1]->First->MustBreakBefore)
    592       return 0;
    593 
    594     // FIXME: TheLine->Level != 0 might or might not be the right check to do.
    595     // If necessary, change to something smarter.
    596     bool MergeShortFunctions =
    597         Style.AllowShortFunctionsOnASingleLine == FormatStyle::SFS_All ||
    598         (Style.AllowShortFunctionsOnASingleLine == FormatStyle::SFS_Inline &&
    599          TheLine->Level != 0);
    600 
    601     if (TheLine->Last->Type == TT_FunctionLBrace &&
    602         TheLine->First != TheLine->Last) {
    603       return MergeShortFunctions ? tryMergeSimpleBlock(I, E, Limit) : 0;
    604     }
    605     if (TheLine->Last->is(tok::l_brace)) {
    606       return Style.BreakBeforeBraces == FormatStyle::BS_Attach
    607                  ? tryMergeSimpleBlock(I, E, Limit)
    608                  : 0;
    609     }
    610     if (I[1]->First->Type == TT_FunctionLBrace &&
    611         Style.BreakBeforeBraces != FormatStyle::BS_Attach) {
    612       // Check for Limit <= 2 to account for the " {".
    613       if (Limit <= 2 || (Style.ColumnLimit == 0 && containsMustBreak(TheLine)))
    614         return 0;
    615       Limit -= 2;
    616 
    617       unsigned MergedLines = 0;
    618       if (MergeShortFunctions) {
    619         MergedLines = tryMergeSimpleBlock(I + 1, E, Limit);
    620         // If we managed to merge the block, count the function header, which is
    621         // on a separate line.
    622         if (MergedLines > 0)
    623           ++MergedLines;
    624       }
    625       return MergedLines;
    626     }
    627     if (TheLine->First->is(tok::kw_if)) {
    628       return Style.AllowShortIfStatementsOnASingleLine
    629                  ? tryMergeSimpleControlStatement(I, E, Limit)
    630                  : 0;
    631     }
    632     if (TheLine->First->isOneOf(tok::kw_for, tok::kw_while)) {
    633       return Style.AllowShortLoopsOnASingleLine
    634                  ? tryMergeSimpleControlStatement(I, E, Limit)
    635                  : 0;
    636     }
    637     if (TheLine->InPPDirective &&
    638         (TheLine->First->HasUnescapedNewline || TheLine->First->IsFirst)) {
    639       return tryMergeSimplePPDirective(I, E, Limit);
    640     }
    641     return 0;
    642   }
    643 
    644 private:
    645   unsigned
    646   tryMergeSimplePPDirective(SmallVectorImpl<AnnotatedLine *>::const_iterator I,
    647                             SmallVectorImpl<AnnotatedLine *>::const_iterator E,
    648                             unsigned Limit) {
    649     if (Limit == 0)
    650       return 0;
    651     if (!I[1]->InPPDirective || I[1]->First->HasUnescapedNewline)
    652       return 0;
    653     if (I + 2 != E && I[2]->InPPDirective && !I[2]->First->HasUnescapedNewline)
    654       return 0;
    655     if (1 + I[1]->Last->TotalLength > Limit)
    656       return 0;
    657     return 1;
    658   }
    659 
    660   unsigned tryMergeSimpleControlStatement(
    661       SmallVectorImpl<AnnotatedLine *>::const_iterator I,
    662       SmallVectorImpl<AnnotatedLine *>::const_iterator E, unsigned Limit) {
    663     if (Limit == 0)
    664       return 0;
    665     if ((Style.BreakBeforeBraces == FormatStyle::BS_Allman ||
    666          Style.BreakBeforeBraces == FormatStyle::BS_GNU) &&
    667         (I[1]->First->is(tok::l_brace) && !Style.AllowShortBlocksOnASingleLine))
    668       return 0;
    669     if (I[1]->InPPDirective != (*I)->InPPDirective ||
    670         (I[1]->InPPDirective && I[1]->First->HasUnescapedNewline))
    671       return 0;
    672     Limit = limitConsideringMacros(I + 1, E, Limit);
    673     AnnotatedLine &Line = **I;
    674     if (Line.Last->isNot(tok::r_paren))
    675       return 0;
    676     if (1 + I[1]->Last->TotalLength > Limit)
    677       return 0;
    678     if (I[1]->First->isOneOf(tok::semi, tok::kw_if, tok::kw_for,
    679                              tok::kw_while) ||
    680         I[1]->First->Type == TT_LineComment)
    681       return 0;
    682     // Only inline simple if's (no nested if or else).
    683     if (I + 2 != E && Line.First->is(tok::kw_if) &&
    684         I[2]->First->is(tok::kw_else))
    685       return 0;
    686     return 1;
    687   }
    688 
    689   unsigned
    690   tryMergeSimpleBlock(SmallVectorImpl<AnnotatedLine *>::const_iterator I,
    691                       SmallVectorImpl<AnnotatedLine *>::const_iterator E,
    692                       unsigned Limit) {
    693     AnnotatedLine &Line = **I;
    694 
    695     // Don't merge ObjC @ keywords and methods.
    696     if (Line.First->isOneOf(tok::at, tok::minus, tok::plus))
    697       return 0;
    698 
    699     // Check that the current line allows merging. This depends on whether we
    700     // are in a control flow statements as well as several style flags.
    701     if (Line.First->isOneOf(tok::kw_else, tok::kw_case))
    702       return 0;
    703     if (Line.First->isOneOf(tok::kw_if, tok::kw_while, tok::kw_do, tok::kw_try,
    704                             tok::kw_catch, tok::kw_for, tok::r_brace)) {
    705       if (!Style.AllowShortBlocksOnASingleLine)
    706         return 0;
    707       if (!Style.AllowShortIfStatementsOnASingleLine &&
    708           Line.First->is(tok::kw_if))
    709         return 0;
    710       if (!Style.AllowShortLoopsOnASingleLine &&
    711           Line.First->isOneOf(tok::kw_while, tok::kw_do, tok::kw_for))
    712         return 0;
    713       // FIXME: Consider an option to allow short exception handling clauses on
    714       // a single line.
    715       if (Line.First->isOneOf(tok::kw_try, tok::kw_catch))
    716         return 0;
    717     }
    718 
    719     FormatToken *Tok = I[1]->First;
    720     if (Tok->is(tok::r_brace) && !Tok->MustBreakBefore &&
    721         (Tok->getNextNonComment() == nullptr ||
    722          Tok->getNextNonComment()->is(tok::semi))) {
    723       // We merge empty blocks even if the line exceeds the column limit.
    724       Tok->SpacesRequiredBefore = 0;
    725       Tok->CanBreakBefore = true;
    726       return 1;
    727     } else if (Limit != 0 && Line.First->isNot(tok::kw_namespace)) {
    728       // We don't merge short records.
    729       if (Line.First->isOneOf(tok::kw_class, tok::kw_union, tok::kw_struct))
    730         return 0;
    731 
    732       // Check that we still have three lines and they fit into the limit.
    733       if (I + 2 == E || I[2]->Type == LT_Invalid)
    734         return 0;
    735       Limit = limitConsideringMacros(I + 2, E, Limit);
    736 
    737       if (!nextTwoLinesFitInto(I, Limit))
    738         return 0;
    739 
    740       // Second, check that the next line does not contain any braces - if it
    741       // does, readability declines when putting it into a single line.
    742       if (I[1]->Last->Type == TT_LineComment)
    743         return 0;
    744       do {
    745         if (Tok->is(tok::l_brace) && Tok->BlockKind != BK_BracedInit)
    746           return 0;
    747         Tok = Tok->Next;
    748       } while (Tok);
    749 
    750       // Last, check that the third line starts with a closing brace.
    751       Tok = I[2]->First;
    752       if (Tok->isNot(tok::r_brace))
    753         return 0;
    754 
    755       return 2;
    756     }
    757     return 0;
    758   }
    759 
    760   /// Returns the modified column limit for \p I if it is inside a macro and
    761   /// needs a trailing '\'.
    762   unsigned
    763   limitConsideringMacros(SmallVectorImpl<AnnotatedLine *>::const_iterator I,
    764                          SmallVectorImpl<AnnotatedLine *>::const_iterator E,
    765                          unsigned Limit) {
    766     if (I[0]->InPPDirective && I + 1 != E &&
    767         !I[1]->First->HasUnescapedNewline && !I[1]->First->is(tok::eof)) {
    768       return Limit < 2 ? 0 : Limit - 2;
    769     }
    770     return Limit;
    771   }
    772 
    773   bool nextTwoLinesFitInto(SmallVectorImpl<AnnotatedLine *>::const_iterator I,
    774                            unsigned Limit) {
    775     if (I[1]->First->MustBreakBefore || I[2]->First->MustBreakBefore)
    776       return false;
    777     return 1 + I[1]->Last->TotalLength + 1 + I[2]->Last->TotalLength <= Limit;
    778   }
    779 
    780   bool containsMustBreak(const AnnotatedLine *Line) {
    781     for (const FormatToken *Tok = Line->First; Tok; Tok = Tok->Next) {
    782       if (Tok->MustBreakBefore)
    783         return true;
    784     }
    785     return false;
    786   }
    787 
    788   const FormatStyle &Style;
    789 };
    790 
    791 class UnwrappedLineFormatter {
    792 public:
    793   UnwrappedLineFormatter(ContinuationIndenter *Indenter,
    794                          WhitespaceManager *Whitespaces,
    795                          const FormatStyle &Style)
    796       : Indenter(Indenter), Whitespaces(Whitespaces), Style(Style),
    797         Joiner(Style) {}
    798 
    799   unsigned format(const SmallVectorImpl<AnnotatedLine *> &Lines, bool DryRun,
    800                   int AdditionalIndent = 0, bool FixBadIndentation = false) {
    801     // Try to look up already computed penalty in DryRun-mode.
    802     std::pair<const SmallVectorImpl<AnnotatedLine *> *, unsigned> CacheKey(
    803         &Lines, AdditionalIndent);
    804     auto CacheIt = PenaltyCache.find(CacheKey);
    805     if (DryRun && CacheIt != PenaltyCache.end())
    806       return CacheIt->second;
    807 
    808     assert(!Lines.empty());
    809     unsigned Penalty = 0;
    810     std::vector<int> IndentForLevel;
    811     for (unsigned i = 0, e = Lines[0]->Level; i != e; ++i)
    812       IndentForLevel.push_back(Style.IndentWidth * i + AdditionalIndent);
    813     const AnnotatedLine *PreviousLine = nullptr;
    814     for (SmallVectorImpl<AnnotatedLine *>::const_iterator I = Lines.begin(),
    815                                                           E = Lines.end();
    816          I != E; ++I) {
    817       const AnnotatedLine &TheLine = **I;
    818       const FormatToken *FirstTok = TheLine.First;
    819       int Offset = getIndentOffset(*FirstTok);
    820 
    821       // Determine indent and try to merge multiple unwrapped lines.
    822       unsigned Indent;
    823       if (TheLine.InPPDirective) {
    824         Indent = TheLine.Level * Style.IndentWidth;
    825       } else {
    826         while (IndentForLevel.size() <= TheLine.Level)
    827           IndentForLevel.push_back(-1);
    828         IndentForLevel.resize(TheLine.Level + 1);
    829         Indent = getIndent(IndentForLevel, TheLine.Level);
    830       }
    831       unsigned LevelIndent = Indent;
    832       if (static_cast<int>(Indent) + Offset >= 0)
    833         Indent += Offset;
    834 
    835       // Merge multiple lines if possible.
    836       unsigned MergedLines = Joiner.tryFitMultipleLinesInOne(Indent, I, E);
    837       if (MergedLines > 0 && Style.ColumnLimit == 0) {
    838         // Disallow line merging if there is a break at the start of one of the
    839         // input lines.
    840         for (unsigned i = 0; i < MergedLines; ++i) {
    841           if (I[i + 1]->First->NewlinesBefore > 0)
    842             MergedLines = 0;
    843         }
    844       }
    845       if (!DryRun) {
    846         for (unsigned i = 0; i < MergedLines; ++i) {
    847           join(*I[i], *I[i + 1]);
    848         }
    849       }
    850       I += MergedLines;
    851 
    852       bool FixIndentation =
    853           FixBadIndentation && (LevelIndent != FirstTok->OriginalColumn);
    854       if (TheLine.First->is(tok::eof)) {
    855         if (PreviousLine && PreviousLine->Affected && !DryRun) {
    856           // Remove the file's trailing whitespace.
    857           unsigned Newlines = std::min(FirstTok->NewlinesBefore, 1u);
    858           Whitespaces->replaceWhitespace(*TheLine.First, Newlines,
    859                                          /*IndentLevel=*/0, /*Spaces=*/0,
    860                                          /*TargetColumn=*/0);
    861         }
    862       } else if (TheLine.Type != LT_Invalid &&
    863                  (TheLine.Affected || FixIndentation)) {
    864         if (FirstTok->WhitespaceRange.isValid()) {
    865           if (!DryRun)
    866             formatFirstToken(*TheLine.First, PreviousLine, TheLine.Level,
    867                              Indent, TheLine.InPPDirective);
    868         } else {
    869           Indent = LevelIndent = FirstTok->OriginalColumn;
    870         }
    871 
    872         // If everything fits on a single line, just put it there.
    873         unsigned ColumnLimit = Style.ColumnLimit;
    874         if (I + 1 != E) {
    875           AnnotatedLine *NextLine = I[1];
    876           if (NextLine->InPPDirective && !NextLine->First->HasUnescapedNewline)
    877             ColumnLimit = getColumnLimit(TheLine.InPPDirective);
    878         }
    879 
    880         if (TheLine.Last->TotalLength + Indent <= ColumnLimit) {
    881           LineState State = Indenter->getInitialState(Indent, &TheLine, DryRun);
    882           while (State.NextToken) {
    883             formatChildren(State, /*Newline=*/false, /*DryRun=*/false, Penalty);
    884             Indenter->addTokenToState(State, /*Newline=*/false, DryRun);
    885           }
    886         } else if (Style.ColumnLimit == 0) {
    887           // FIXME: Implement nested blocks for ColumnLimit = 0.
    888           NoColumnLimitFormatter Formatter(Indenter);
    889           if (!DryRun)
    890             Formatter.format(Indent, &TheLine);
    891         } else {
    892           Penalty += format(TheLine, Indent, DryRun);
    893         }
    894 
    895         if (!TheLine.InPPDirective)
    896           IndentForLevel[TheLine.Level] = LevelIndent;
    897       } else if (TheLine.ChildrenAffected) {
    898         format(TheLine.Children, DryRun);
    899       } else {
    900         // Format the first token if necessary, and notify the WhitespaceManager
    901         // about the unchanged whitespace.
    902         for (FormatToken *Tok = TheLine.First; Tok; Tok = Tok->Next) {
    903           if (Tok == TheLine.First &&
    904               (Tok->NewlinesBefore > 0 || Tok->IsFirst)) {
    905             unsigned LevelIndent = Tok->OriginalColumn;
    906             if (!DryRun) {
    907               // Remove trailing whitespace of the previous line.
    908               if ((PreviousLine && PreviousLine->Affected) ||
    909                   TheLine.LeadingEmptyLinesAffected) {
    910                 formatFirstToken(*Tok, PreviousLine, TheLine.Level, LevelIndent,
    911                                  TheLine.InPPDirective);
    912               } else {
    913                 Whitespaces->addUntouchableToken(*Tok, TheLine.InPPDirective);
    914               }
    915             }
    916 
    917             if (static_cast<int>(LevelIndent) - Offset >= 0)
    918               LevelIndent -= Offset;
    919             if (Tok->isNot(tok::comment) && !TheLine.InPPDirective)
    920               IndentForLevel[TheLine.Level] = LevelIndent;
    921           } else if (!DryRun) {
    922             Whitespaces->addUntouchableToken(*Tok, TheLine.InPPDirective);
    923           }
    924         }
    925       }
    926       if (!DryRun) {
    927         for (FormatToken *Tok = TheLine.First; Tok; Tok = Tok->Next) {
    928           Tok->Finalized = true;
    929         }
    930       }
    931       PreviousLine = *I;
    932     }
    933     PenaltyCache[CacheKey] = Penalty;
    934     return Penalty;
    935   }
    936 
    937 private:
    938   /// \brief Formats an \c AnnotatedLine and returns the penalty.
    939   ///
    940   /// If \p DryRun is \c false, directly applies the changes.
    941   unsigned format(const AnnotatedLine &Line, unsigned FirstIndent,
    942                   bool DryRun) {
    943     LineState State = Indenter->getInitialState(FirstIndent, &Line, DryRun);
    944 
    945     // If the ObjC method declaration does not fit on a line, we should format
    946     // it with one arg per line.
    947     if (State.Line->Type == LT_ObjCMethodDecl)
    948       State.Stack.back().BreakBeforeParameter = true;
    949 
    950     // Find best solution in solution space.
    951     return analyzeSolutionSpace(State, DryRun);
    952   }
    953 
    954   /// \brief An edge in the solution space from \c Previous->State to \c State,
    955   /// inserting a newline dependent on the \c NewLine.
    956   struct StateNode {
    957     StateNode(const LineState &State, bool NewLine, StateNode *Previous)
    958         : State(State), NewLine(NewLine), Previous(Previous) {}
    959     LineState State;
    960     bool NewLine;
    961     StateNode *Previous;
    962   };
    963 
    964   /// \brief A pair of <penalty, count> that is used to prioritize the BFS on.
    965   ///
    966   /// In case of equal penalties, we want to prefer states that were inserted
    967   /// first. During state generation we make sure that we insert states first
    968   /// that break the line as late as possible.
    969   typedef std::pair<unsigned, unsigned> OrderedPenalty;
    970 
    971   /// \brief An item in the prioritized BFS search queue. The \c StateNode's
    972   /// \c State has the given \c OrderedPenalty.
    973   typedef std::pair<OrderedPenalty, StateNode *> QueueItem;
    974 
    975   /// \brief The BFS queue type.
    976   typedef std::priority_queue<QueueItem, std::vector<QueueItem>,
    977                               std::greater<QueueItem> > QueueType;
    978 
    979   /// \brief Get the offset of the line relatively to the level.
    980   ///
    981   /// For example, 'public:' labels in classes are offset by 1 or 2
    982   /// characters to the left from their level.
    983   int getIndentOffset(const FormatToken &RootToken) {
    984     if (RootToken.isAccessSpecifier(false) || RootToken.isObjCAccessSpecifier())
    985       return Style.AccessModifierOffset;
    986     return 0;
    987   }
    988 
    989   /// \brief Add a new line and the required indent before the first Token
    990   /// of the \c UnwrappedLine if there was no structural parsing error.
    991   void formatFirstToken(FormatToken &RootToken,
    992                         const AnnotatedLine *PreviousLine, unsigned IndentLevel,
    993                         unsigned Indent, bool InPPDirective) {
    994     unsigned Newlines =
    995         std::min(RootToken.NewlinesBefore, Style.MaxEmptyLinesToKeep + 1);
    996     // Remove empty lines before "}" where applicable.
    997     if (RootToken.is(tok::r_brace) &&
    998         (!RootToken.Next ||
    999          (RootToken.Next->is(tok::semi) && !RootToken.Next->Next)))
   1000       Newlines = std::min(Newlines, 1u);
   1001     if (Newlines == 0 && !RootToken.IsFirst)
   1002       Newlines = 1;
   1003     if (RootToken.IsFirst && !RootToken.HasUnescapedNewline)
   1004       Newlines = 0;
   1005 
   1006     // Remove empty lines after "{".
   1007     if (!Style.KeepEmptyLinesAtTheStartOfBlocks && PreviousLine &&
   1008         PreviousLine->Last->is(tok::l_brace) &&
   1009         PreviousLine->First->isNot(tok::kw_namespace))
   1010       Newlines = 1;
   1011 
   1012     // Insert extra new line before access specifiers.
   1013     if (PreviousLine && PreviousLine->Last->isOneOf(tok::semi, tok::r_brace) &&
   1014         RootToken.isAccessSpecifier() && RootToken.NewlinesBefore == 1)
   1015       ++Newlines;
   1016 
   1017     // Remove empty lines after access specifiers.
   1018     if (PreviousLine && PreviousLine->First->isAccessSpecifier())
   1019       Newlines = std::min(1u, Newlines);
   1020 
   1021     Whitespaces->replaceWhitespace(RootToken, Newlines, IndentLevel, Indent,
   1022                                    Indent, InPPDirective &&
   1023                                                !RootToken.HasUnescapedNewline);
   1024   }
   1025 
   1026   /// \brief Get the indent of \p Level from \p IndentForLevel.
   1027   ///
   1028   /// \p IndentForLevel must contain the indent for the level \c l
   1029   /// at \p IndentForLevel[l], or a value < 0 if the indent for
   1030   /// that level is unknown.
   1031   unsigned getIndent(const std::vector<int> IndentForLevel, unsigned Level) {
   1032     if (IndentForLevel[Level] != -1)
   1033       return IndentForLevel[Level];
   1034     if (Level == 0)
   1035       return 0;
   1036     return getIndent(IndentForLevel, Level - 1) + Style.IndentWidth;
   1037   }
   1038 
   1039   void join(AnnotatedLine &A, const AnnotatedLine &B) {
   1040     assert(!A.Last->Next);
   1041     assert(!B.First->Previous);
   1042     if (B.Affected)
   1043       A.Affected = true;
   1044     A.Last->Next = B.First;
   1045     B.First->Previous = A.Last;
   1046     B.First->CanBreakBefore = true;
   1047     unsigned LengthA = A.Last->TotalLength + B.First->SpacesRequiredBefore;
   1048     for (FormatToken *Tok = B.First; Tok; Tok = Tok->Next) {
   1049       Tok->TotalLength += LengthA;
   1050       A.Last = Tok;
   1051     }
   1052   }
   1053 
   1054   unsigned getColumnLimit(bool InPPDirective) const {
   1055     // In preprocessor directives reserve two chars for trailing " \"
   1056     return Style.ColumnLimit - (InPPDirective ? 2 : 0);
   1057   }
   1058 
   1059   struct CompareLineStatePointers {
   1060     bool operator()(LineState *obj1, LineState *obj2) const {
   1061       return *obj1 < *obj2;
   1062     }
   1063   };
   1064 
   1065   /// \brief Analyze the entire solution space starting from \p InitialState.
   1066   ///
   1067   /// This implements a variant of Dijkstra's algorithm on the graph that spans
   1068   /// the solution space (\c LineStates are the nodes). The algorithm tries to
   1069   /// find the shortest path (the one with lowest penalty) from \p InitialState
   1070   /// to a state where all tokens are placed. Returns the penalty.
   1071   ///
   1072   /// If \p DryRun is \c false, directly applies the changes.
   1073   unsigned analyzeSolutionSpace(LineState &InitialState, bool DryRun = false) {
   1074     std::set<LineState *, CompareLineStatePointers> Seen;
   1075 
   1076     // Increasing count of \c StateNode items we have created. This is used to
   1077     // create a deterministic order independent of the container.
   1078     unsigned Count = 0;
   1079     QueueType Queue;
   1080 
   1081     // Insert start element into queue.
   1082     StateNode *Node =
   1083         new (Allocator.Allocate()) StateNode(InitialState, false, nullptr);
   1084     Queue.push(QueueItem(OrderedPenalty(0, Count), Node));
   1085     ++Count;
   1086 
   1087     unsigned Penalty = 0;
   1088 
   1089     // While not empty, take first element and follow edges.
   1090     while (!Queue.empty()) {
   1091       Penalty = Queue.top().first.first;
   1092       StateNode *Node = Queue.top().second;
   1093       if (!Node->State.NextToken) {
   1094         DEBUG(llvm::dbgs() << "\n---\nPenalty for line: " << Penalty << "\n");
   1095         break;
   1096       }
   1097       Queue.pop();
   1098 
   1099       // Cut off the analysis of certain solutions if the analysis gets too
   1100       // complex. See description of IgnoreStackForComparison.
   1101       if (Count > 10000)
   1102         Node->State.IgnoreStackForComparison = true;
   1103 
   1104       if (!Seen.insert(&Node->State).second)
   1105         // State already examined with lower penalty.
   1106         continue;
   1107 
   1108       FormatDecision LastFormat = Node->State.NextToken->Decision;
   1109       if (LastFormat == FD_Unformatted || LastFormat == FD_Continue)
   1110         addNextStateToQueue(Penalty, Node, /*NewLine=*/false, &Count, &Queue);
   1111       if (LastFormat == FD_Unformatted || LastFormat == FD_Break)
   1112         addNextStateToQueue(Penalty, Node, /*NewLine=*/true, &Count, &Queue);
   1113     }
   1114 
   1115     if (Queue.empty()) {
   1116       // We were unable to find a solution, do nothing.
   1117       // FIXME: Add diagnostic?
   1118       DEBUG(llvm::dbgs() << "Could not find a solution.\n");
   1119       return 0;
   1120     }
   1121 
   1122     // Reconstruct the solution.
   1123     if (!DryRun)
   1124       reconstructPath(InitialState, Queue.top().second);
   1125 
   1126     DEBUG(llvm::dbgs() << "Total number of analyzed states: " << Count << "\n");
   1127     DEBUG(llvm::dbgs() << "---\n");
   1128 
   1129     return Penalty;
   1130   }
   1131 
   1132   void reconstructPath(LineState &State, StateNode *Current) {
   1133     std::deque<StateNode *> Path;
   1134     // We do not need a break before the initial token.
   1135     while (Current->Previous) {
   1136       Path.push_front(Current);
   1137       Current = Current->Previous;
   1138     }
   1139     for (std::deque<StateNode *>::iterator I = Path.begin(), E = Path.end();
   1140          I != E; ++I) {
   1141       unsigned Penalty = 0;
   1142       formatChildren(State, (*I)->NewLine, /*DryRun=*/false, Penalty);
   1143       Penalty += Indenter->addTokenToState(State, (*I)->NewLine, false);
   1144 
   1145       DEBUG({
   1146         if ((*I)->NewLine) {
   1147           llvm::dbgs() << "Penalty for placing "
   1148                        << (*I)->Previous->State.NextToken->Tok.getName() << ": "
   1149                        << Penalty << "\n";
   1150         }
   1151       });
   1152     }
   1153   }
   1154 
   1155   /// \brief Add the following state to the analysis queue \c Queue.
   1156   ///
   1157   /// Assume the current state is \p PreviousNode and has been reached with a
   1158   /// penalty of \p Penalty. Insert a line break if \p NewLine is \c true.
   1159   void addNextStateToQueue(unsigned Penalty, StateNode *PreviousNode,
   1160                            bool NewLine, unsigned *Count, QueueType *Queue) {
   1161     if (NewLine && !Indenter->canBreak(PreviousNode->State))
   1162       return;
   1163     if (!NewLine && Indenter->mustBreak(PreviousNode->State))
   1164       return;
   1165 
   1166     StateNode *Node = new (Allocator.Allocate())
   1167         StateNode(PreviousNode->State, NewLine, PreviousNode);
   1168     if (!formatChildren(Node->State, NewLine, /*DryRun=*/true, Penalty))
   1169       return;
   1170 
   1171     Penalty += Indenter->addTokenToState(Node->State, NewLine, true);
   1172 
   1173     Queue->push(QueueItem(OrderedPenalty(Penalty, *Count), Node));
   1174     ++(*Count);
   1175   }
   1176 
   1177   /// \brief If the \p State's next token is an r_brace closing a nested block,
   1178   /// format the nested block before it.
   1179   ///
   1180   /// Returns \c true if all children could be placed successfully and adapts
   1181   /// \p Penalty as well as \p State. If \p DryRun is false, also directly
   1182   /// creates changes using \c Whitespaces.
   1183   ///
   1184   /// The crucial idea here is that children always get formatted upon
   1185   /// encountering the closing brace right after the nested block. Now, if we
   1186   /// are currently trying to keep the "}" on the same line (i.e. \p NewLine is
   1187   /// \c false), the entire block has to be kept on the same line (which is only
   1188   /// possible if it fits on the line, only contains a single statement, etc.
   1189   ///
   1190   /// If \p NewLine is true, we format the nested block on separate lines, i.e.
   1191   /// break after the "{", format all lines with correct indentation and the put
   1192   /// the closing "}" on yet another new line.
   1193   ///
   1194   /// This enables us to keep the simple structure of the
   1195   /// \c UnwrappedLineFormatter, where we only have two options for each token:
   1196   /// break or don't break.
   1197   bool formatChildren(LineState &State, bool NewLine, bool DryRun,
   1198                       unsigned &Penalty) {
   1199     FormatToken &Previous = *State.NextToken->Previous;
   1200     const FormatToken *LBrace = State.NextToken->getPreviousNonComment();
   1201     if (!LBrace || LBrace->isNot(tok::l_brace) ||
   1202         LBrace->BlockKind != BK_Block || Previous.Children.size() == 0)
   1203       // The previous token does not open a block. Nothing to do. We don't
   1204       // assert so that we can simply call this function for all tokens.
   1205       return true;
   1206 
   1207     if (NewLine) {
   1208       int AdditionalIndent =
   1209           State.FirstIndent - State.Line->Level * Style.IndentWidth;
   1210       if (State.Stack.size() < 2 ||
   1211           !State.Stack[State.Stack.size() - 2].JSFunctionInlined) {
   1212         AdditionalIndent = State.Stack.back().Indent -
   1213                            Previous.Children[0]->Level * Style.IndentWidth;
   1214       }
   1215 
   1216       Penalty += format(Previous.Children, DryRun, AdditionalIndent,
   1217                         /*FixBadIndentation=*/true);
   1218       return true;
   1219     }
   1220 
   1221     // Cannot merge multiple statements into a single line.
   1222     if (Previous.Children.size() > 1)
   1223       return false;
   1224 
   1225     // Cannot merge into one line if this line ends on a comment.
   1226     if (Previous.is(tok::comment))
   1227       return false;
   1228 
   1229     // We can't put the closing "}" on a line with a trailing comment.
   1230     if (Previous.Children[0]->Last->isTrailingComment())
   1231       return false;
   1232 
   1233     // If the child line exceeds the column limit, we wouldn't want to merge it.
   1234     // We add +2 for the trailing " }".
   1235     if (Style.ColumnLimit > 0 &&
   1236         Previous.Children[0]->Last->TotalLength + State.Column + 2 >
   1237             Style.ColumnLimit)
   1238       return false;
   1239 
   1240     if (!DryRun) {
   1241       Whitespaces->replaceWhitespace(
   1242           *Previous.Children[0]->First,
   1243           /*Newlines=*/0, /*IndentLevel=*/0, /*Spaces=*/1,
   1244           /*StartOfTokenColumn=*/State.Column, State.Line->InPPDirective);
   1245     }
   1246     Penalty += format(*Previous.Children[0], State.Column + 1, DryRun);
   1247 
   1248     State.Column += 1 + Previous.Children[0]->Last->TotalLength;
   1249     return true;
   1250   }
   1251 
   1252   ContinuationIndenter *Indenter;
   1253   WhitespaceManager *Whitespaces;
   1254   FormatStyle Style;
   1255   LineJoiner Joiner;
   1256 
   1257   llvm::SpecificBumpPtrAllocator<StateNode> Allocator;
   1258 
   1259   // Cache to store the penalty of formatting a vector of AnnotatedLines
   1260   // starting from a specific additional offset. Improves performance if there
   1261   // are many nested blocks.
   1262   std::map<std::pair<const SmallVectorImpl<AnnotatedLine *> *, unsigned>,
   1263            unsigned> PenaltyCache;
   1264 };
   1265 
   1266 class FormatTokenLexer {
   1267 public:
   1268   FormatTokenLexer(Lexer &Lex, SourceManager &SourceMgr, FormatStyle &Style,
   1269                    encoding::Encoding Encoding)
   1270       : FormatTok(nullptr), IsFirstToken(true), GreaterStashed(false),
   1271         Column(0), TrailingWhitespace(0), Lex(Lex), SourceMgr(SourceMgr),
   1272         Style(Style), IdentTable(getFormattingLangOpts()), Encoding(Encoding),
   1273         FirstInLineIndex(0) {
   1274     Lex.SetKeepWhitespaceMode(true);
   1275 
   1276     for (const std::string &ForEachMacro : Style.ForEachMacros)
   1277       ForEachMacros.push_back(&IdentTable.get(ForEachMacro));
   1278     std::sort(ForEachMacros.begin(), ForEachMacros.end());
   1279   }
   1280 
   1281   ArrayRef<FormatToken *> lex() {
   1282     assert(Tokens.empty());
   1283     assert(FirstInLineIndex == 0);
   1284     do {
   1285       Tokens.push_back(getNextToken());
   1286       tryMergePreviousTokens();
   1287       if (Tokens.back()->NewlinesBefore > 0)
   1288         FirstInLineIndex = Tokens.size() - 1;
   1289     } while (Tokens.back()->Tok.isNot(tok::eof));
   1290     return Tokens;
   1291   }
   1292 
   1293   IdentifierTable &getIdentTable() { return IdentTable; }
   1294 
   1295 private:
   1296   void tryMergePreviousTokens() {
   1297     if (tryMerge_TMacro())
   1298       return;
   1299     if (tryMergeConflictMarkers())
   1300       return;
   1301 
   1302     if (Style.Language == FormatStyle::LK_JavaScript) {
   1303       if (tryMergeEscapeSequence())
   1304         return;
   1305       if (tryMergeJSRegexLiteral())
   1306         return;
   1307 
   1308       static tok::TokenKind JSIdentity[] = { tok::equalequal, tok::equal };
   1309       static tok::TokenKind JSNotIdentity[] = { tok::exclaimequal, tok::equal };
   1310       static tok::TokenKind JSShiftEqual[] = { tok::greater, tok::greater,
   1311                                                tok::greaterequal };
   1312       static tok::TokenKind JSRightArrow[] = { tok::equal, tok::greater };
   1313       // FIXME: We probably need to change token type to mimic operator with the
   1314       // correct priority.
   1315       if (tryMergeTokens(JSIdentity))
   1316         return;
   1317       if (tryMergeTokens(JSNotIdentity))
   1318         return;
   1319       if (tryMergeTokens(JSShiftEqual))
   1320         return;
   1321       if (tryMergeTokens(JSRightArrow))
   1322         return;
   1323     }
   1324   }
   1325 
   1326   bool tryMergeTokens(ArrayRef<tok::TokenKind> Kinds) {
   1327     if (Tokens.size() < Kinds.size())
   1328       return false;
   1329 
   1330     SmallVectorImpl<FormatToken *>::const_iterator First =
   1331         Tokens.end() - Kinds.size();
   1332     if (!First[0]->is(Kinds[0]))
   1333       return false;
   1334     unsigned AddLength = 0;
   1335     for (unsigned i = 1; i < Kinds.size(); ++i) {
   1336       if (!First[i]->is(Kinds[i]) || First[i]->WhitespaceRange.getBegin() !=
   1337                                          First[i]->WhitespaceRange.getEnd())
   1338         return false;
   1339       AddLength += First[i]->TokenText.size();
   1340     }
   1341     Tokens.resize(Tokens.size() - Kinds.size() + 1);
   1342     First[0]->TokenText = StringRef(First[0]->TokenText.data(),
   1343                                     First[0]->TokenText.size() + AddLength);
   1344     First[0]->ColumnWidth += AddLength;
   1345     return true;
   1346   }
   1347 
   1348   // Tries to merge an escape sequence, i.e. a "\\" and the following
   1349   // character. Use e.g. inside JavaScript regex literals.
   1350   bool tryMergeEscapeSequence() {
   1351     if (Tokens.size() < 2)
   1352       return false;
   1353     FormatToken *Previous = Tokens[Tokens.size() - 2];
   1354     if (Previous->isNot(tok::unknown) || Previous->TokenText != "\\" ||
   1355         Tokens.back()->NewlinesBefore != 0)
   1356       return false;
   1357     Previous->ColumnWidth += Tokens.back()->ColumnWidth;
   1358     StringRef Text = Previous->TokenText;
   1359     Previous->TokenText =
   1360         StringRef(Text.data(), Text.size() + Tokens.back()->TokenText.size());
   1361     Tokens.resize(Tokens.size() - 1);
   1362     return true;
   1363   }
   1364 
   1365   // Try to determine whether the current token ends a JavaScript regex literal.
   1366   // We heuristically assume that this is a regex literal if we find two
   1367   // unescaped slashes on a line and the token before the first slash is one of
   1368   // "(;,{}![:?", a binary operator or 'return', as those cannot be followed by
   1369   // a division.
   1370   bool tryMergeJSRegexLiteral() {
   1371     if (Tokens.size() < 2 || Tokens.back()->isNot(tok::slash) ||
   1372         (Tokens[Tokens.size() - 2]->is(tok::unknown) &&
   1373          Tokens[Tokens.size() - 2]->TokenText == "\\"))
   1374       return false;
   1375     unsigned TokenCount = 0;
   1376     unsigned LastColumn = Tokens.back()->OriginalColumn;
   1377     for (auto I = Tokens.rbegin() + 1, E = Tokens.rend(); I != E; ++I) {
   1378       ++TokenCount;
   1379       if (I[0]->is(tok::slash) && I + 1 != E &&
   1380           (I[1]->isOneOf(tok::l_paren, tok::semi, tok::l_brace, tok::r_brace,
   1381                          tok::exclaim, tok::l_square, tok::colon, tok::comma,
   1382                          tok::question, tok::kw_return) ||
   1383            I[1]->isBinaryOperator())) {
   1384         Tokens.resize(Tokens.size() - TokenCount);
   1385         Tokens.back()->Tok.setKind(tok::unknown);
   1386         Tokens.back()->Type = TT_RegexLiteral;
   1387         Tokens.back()->ColumnWidth += LastColumn - I[0]->OriginalColumn;
   1388         return true;
   1389       }
   1390 
   1391       // There can't be a newline inside a regex literal.
   1392       if (I[0]->NewlinesBefore > 0)
   1393         return false;
   1394     }
   1395     return false;
   1396   }
   1397 
   1398   bool tryMerge_TMacro() {
   1399     if (Tokens.size() < 4)
   1400       return false;
   1401     FormatToken *Last = Tokens.back();
   1402     if (!Last->is(tok::r_paren))
   1403       return false;
   1404 
   1405     FormatToken *String = Tokens[Tokens.size() - 2];
   1406     if (!String->is(tok::string_literal) || String->IsMultiline)
   1407       return false;
   1408 
   1409     if (!Tokens[Tokens.size() - 3]->is(tok::l_paren))
   1410       return false;
   1411 
   1412     FormatToken *Macro = Tokens[Tokens.size() - 4];
   1413     if (Macro->TokenText != "_T")
   1414       return false;
   1415 
   1416     const char *Start = Macro->TokenText.data();
   1417     const char *End = Last->TokenText.data() + Last->TokenText.size();
   1418     String->TokenText = StringRef(Start, End - Start);
   1419     String->IsFirst = Macro->IsFirst;
   1420     String->LastNewlineOffset = Macro->LastNewlineOffset;
   1421     String->WhitespaceRange = Macro->WhitespaceRange;
   1422     String->OriginalColumn = Macro->OriginalColumn;
   1423     String->ColumnWidth = encoding::columnWidthWithTabs(
   1424         String->TokenText, String->OriginalColumn, Style.TabWidth, Encoding);
   1425 
   1426     Tokens.pop_back();
   1427     Tokens.pop_back();
   1428     Tokens.pop_back();
   1429     Tokens.back() = String;
   1430     return true;
   1431   }
   1432 
   1433   bool tryMergeConflictMarkers() {
   1434     if (Tokens.back()->NewlinesBefore == 0 && Tokens.back()->isNot(tok::eof))
   1435       return false;
   1436 
   1437     // Conflict lines look like:
   1438     // <marker> <text from the vcs>
   1439     // For example:
   1440     // >>>>>>> /file/in/file/system at revision 1234
   1441     //
   1442     // We merge all tokens in a line that starts with a conflict marker
   1443     // into a single token with a special token type that the unwrapped line
   1444     // parser will use to correctly rebuild the underlying code.
   1445 
   1446     FileID ID;
   1447     // Get the position of the first token in the line.
   1448     unsigned FirstInLineOffset;
   1449     std::tie(ID, FirstInLineOffset) = SourceMgr.getDecomposedLoc(
   1450         Tokens[FirstInLineIndex]->getStartOfNonWhitespace());
   1451     StringRef Buffer = SourceMgr.getBuffer(ID)->getBuffer();
   1452     // Calculate the offset of the start of the current line.
   1453     auto LineOffset = Buffer.rfind('\n', FirstInLineOffset);
   1454     if (LineOffset == StringRef::npos) {
   1455       LineOffset = 0;
   1456     } else {
   1457       ++LineOffset;
   1458     }
   1459 
   1460     auto FirstSpace = Buffer.find_first_of(" \n", LineOffset);
   1461     StringRef LineStart;
   1462     if (FirstSpace == StringRef::npos) {
   1463       LineStart = Buffer.substr(LineOffset);
   1464     } else {
   1465       LineStart = Buffer.substr(LineOffset, FirstSpace - LineOffset);
   1466     }
   1467 
   1468     TokenType Type = TT_Unknown;
   1469     if (LineStart == "<<<<<<<" || LineStart == ">>>>") {
   1470       Type = TT_ConflictStart;
   1471     } else if (LineStart == "|||||||" || LineStart == "=======" ||
   1472                LineStart == "====") {
   1473       Type = TT_ConflictAlternative;
   1474     } else if (LineStart == ">>>>>>>" || LineStart == "<<<<") {
   1475       Type = TT_ConflictEnd;
   1476     }
   1477 
   1478     if (Type != TT_Unknown) {
   1479       FormatToken *Next = Tokens.back();
   1480 
   1481       Tokens.resize(FirstInLineIndex + 1);
   1482       // We do not need to build a complete token here, as we will skip it
   1483       // during parsing anyway (as we must not touch whitespace around conflict
   1484       // markers).
   1485       Tokens.back()->Type = Type;
   1486       Tokens.back()->Tok.setKind(tok::kw___unknown_anytype);
   1487 
   1488       Tokens.push_back(Next);
   1489       return true;
   1490     }
   1491 
   1492     return false;
   1493   }
   1494 
   1495   FormatToken *getNextToken() {
   1496     if (GreaterStashed) {
   1497       // Create a synthesized second '>' token.
   1498       // FIXME: Increment Column and set OriginalColumn.
   1499       Token Greater = FormatTok->Tok;
   1500       FormatTok = new (Allocator.Allocate()) FormatToken;
   1501       FormatTok->Tok = Greater;
   1502       SourceLocation GreaterLocation =
   1503           FormatTok->Tok.getLocation().getLocWithOffset(1);
   1504       FormatTok->WhitespaceRange =
   1505           SourceRange(GreaterLocation, GreaterLocation);
   1506       FormatTok->TokenText = ">";
   1507       FormatTok->ColumnWidth = 1;
   1508       GreaterStashed = false;
   1509       return FormatTok;
   1510     }
   1511 
   1512     FormatTok = new (Allocator.Allocate()) FormatToken;
   1513     readRawToken(*FormatTok);
   1514     SourceLocation WhitespaceStart =
   1515         FormatTok->Tok.getLocation().getLocWithOffset(-TrailingWhitespace);
   1516     FormatTok->IsFirst = IsFirstToken;
   1517     IsFirstToken = false;
   1518 
   1519     // Consume and record whitespace until we find a significant token.
   1520     unsigned WhitespaceLength = TrailingWhitespace;
   1521     while (FormatTok->Tok.is(tok::unknown)) {
   1522       for (int i = 0, e = FormatTok->TokenText.size(); i != e; ++i) {
   1523         switch (FormatTok->TokenText[i]) {
   1524         case '\n':
   1525           ++FormatTok->NewlinesBefore;
   1526           // FIXME: This is technically incorrect, as it could also
   1527           // be a literal backslash at the end of the line.
   1528           if (i == 0 || (FormatTok->TokenText[i - 1] != '\\' &&
   1529                          (FormatTok->TokenText[i - 1] != '\r' || i == 1 ||
   1530                           FormatTok->TokenText[i - 2] != '\\')))
   1531             FormatTok->HasUnescapedNewline = true;
   1532           FormatTok->LastNewlineOffset = WhitespaceLength + i + 1;
   1533           Column = 0;
   1534           break;
   1535         case '\r':
   1536         case '\f':
   1537         case '\v':
   1538           Column = 0;
   1539           break;
   1540         case ' ':
   1541           ++Column;
   1542           break;
   1543         case '\t':
   1544           Column += Style.TabWidth - Column % Style.TabWidth;
   1545           break;
   1546         case '\\':
   1547           ++Column;
   1548           if (i + 1 == e || (FormatTok->TokenText[i + 1] != '\r' &&
   1549                              FormatTok->TokenText[i + 1] != '\n'))
   1550             FormatTok->Type = TT_ImplicitStringLiteral;
   1551           break;
   1552         default:
   1553           FormatTok->Type = TT_ImplicitStringLiteral;
   1554           ++Column;
   1555           break;
   1556         }
   1557       }
   1558 
   1559       if (FormatTok->Type == TT_ImplicitStringLiteral)
   1560         break;
   1561       WhitespaceLength += FormatTok->Tok.getLength();
   1562 
   1563       readRawToken(*FormatTok);
   1564     }
   1565 
   1566     // In case the token starts with escaped newlines, we want to
   1567     // take them into account as whitespace - this pattern is quite frequent
   1568     // in macro definitions.
   1569     // FIXME: Add a more explicit test.
   1570     while (FormatTok->TokenText.size() > 1 && FormatTok->TokenText[0] == '\\' &&
   1571            FormatTok->TokenText[1] == '\n') {
   1572       ++FormatTok->NewlinesBefore;
   1573       WhitespaceLength += 2;
   1574       Column = 0;
   1575       FormatTok->TokenText = FormatTok->TokenText.substr(2);
   1576     }
   1577 
   1578     FormatTok->WhitespaceRange = SourceRange(
   1579         WhitespaceStart, WhitespaceStart.getLocWithOffset(WhitespaceLength));
   1580 
   1581     FormatTok->OriginalColumn = Column;
   1582 
   1583     TrailingWhitespace = 0;
   1584     if (FormatTok->Tok.is(tok::comment)) {
   1585       // FIXME: Add the trimmed whitespace to Column.
   1586       StringRef UntrimmedText = FormatTok->TokenText;
   1587       FormatTok->TokenText = FormatTok->TokenText.rtrim(" \t\v\f");
   1588       TrailingWhitespace = UntrimmedText.size() - FormatTok->TokenText.size();
   1589     } else if (FormatTok->Tok.is(tok::raw_identifier)) {
   1590       IdentifierInfo &Info = IdentTable.get(FormatTok->TokenText);
   1591       FormatTok->Tok.setIdentifierInfo(&Info);
   1592       FormatTok->Tok.setKind(Info.getTokenID());
   1593     } else if (FormatTok->Tok.is(tok::greatergreater)) {
   1594       FormatTok->Tok.setKind(tok::greater);
   1595       FormatTok->TokenText = FormatTok->TokenText.substr(0, 1);
   1596       GreaterStashed = true;
   1597     }
   1598 
   1599     // Now FormatTok is the next non-whitespace token.
   1600 
   1601     StringRef Text = FormatTok->TokenText;
   1602     size_t FirstNewlinePos = Text.find('\n');
   1603     if (FirstNewlinePos == StringRef::npos) {
   1604       // FIXME: ColumnWidth actually depends on the start column, we need to
   1605       // take this into account when the token is moved.
   1606       FormatTok->ColumnWidth =
   1607           encoding::columnWidthWithTabs(Text, Column, Style.TabWidth, Encoding);
   1608       Column += FormatTok->ColumnWidth;
   1609     } else {
   1610       FormatTok->IsMultiline = true;
   1611       // FIXME: ColumnWidth actually depends on the start column, we need to
   1612       // take this into account when the token is moved.
   1613       FormatTok->ColumnWidth = encoding::columnWidthWithTabs(
   1614           Text.substr(0, FirstNewlinePos), Column, Style.TabWidth, Encoding);
   1615 
   1616       // The last line of the token always starts in column 0.
   1617       // Thus, the length can be precomputed even in the presence of tabs.
   1618       FormatTok->LastLineColumnWidth = encoding::columnWidthWithTabs(
   1619           Text.substr(Text.find_last_of('\n') + 1), 0, Style.TabWidth,
   1620           Encoding);
   1621       Column = FormatTok->LastLineColumnWidth;
   1622     }
   1623 
   1624     FormatTok->IsForEachMacro =
   1625         std::binary_search(ForEachMacros.begin(), ForEachMacros.end(),
   1626                            FormatTok->Tok.getIdentifierInfo());
   1627 
   1628     return FormatTok;
   1629   }
   1630 
   1631   FormatToken *FormatTok;
   1632   bool IsFirstToken;
   1633   bool GreaterStashed;
   1634   unsigned Column;
   1635   unsigned TrailingWhitespace;
   1636   Lexer &Lex;
   1637   SourceManager &SourceMgr;
   1638   FormatStyle &Style;
   1639   IdentifierTable IdentTable;
   1640   encoding::Encoding Encoding;
   1641   llvm::SpecificBumpPtrAllocator<FormatToken> Allocator;
   1642   // Index (in 'Tokens') of the last token that starts a new line.
   1643   unsigned FirstInLineIndex;
   1644   SmallVector<FormatToken *, 16> Tokens;
   1645   SmallVector<IdentifierInfo *, 8> ForEachMacros;
   1646 
   1647   void readRawToken(FormatToken &Tok) {
   1648     Lex.LexFromRawLexer(Tok.Tok);
   1649     Tok.TokenText = StringRef(SourceMgr.getCharacterData(Tok.Tok.getLocation()),
   1650                               Tok.Tok.getLength());
   1651     // For formatting, treat unterminated string literals like normal string
   1652     // literals.
   1653     if (Tok.is(tok::unknown)) {
   1654       if (!Tok.TokenText.empty() && Tok.TokenText[0] == '"') {
   1655         Tok.Tok.setKind(tok::string_literal);
   1656         Tok.IsUnterminatedLiteral = true;
   1657       } else if (Style.Language == FormatStyle::LK_JavaScript &&
   1658                  Tok.TokenText == "''") {
   1659         Tok.Tok.setKind(tok::char_constant);
   1660       }
   1661     }
   1662   }
   1663 };
   1664 
   1665 static StringRef getLanguageName(FormatStyle::LanguageKind Language) {
   1666   switch (Language) {
   1667   case FormatStyle::LK_Cpp:
   1668     return "C++";
   1669   case FormatStyle::LK_JavaScript:
   1670     return "JavaScript";
   1671   case FormatStyle::LK_Proto:
   1672     return "Proto";
   1673   default:
   1674     return "Unknown";
   1675   }
   1676 }
   1677 
   1678 class Formatter : public UnwrappedLineConsumer {
   1679 public:
   1680   Formatter(const FormatStyle &Style, Lexer &Lex, SourceManager &SourceMgr,
   1681             const std::vector<CharSourceRange> &Ranges)
   1682       : Style(Style), Lex(Lex), SourceMgr(SourceMgr),
   1683         Whitespaces(SourceMgr, Style, inputUsesCRLF(Lex.getBuffer())),
   1684         Ranges(Ranges.begin(), Ranges.end()), UnwrappedLines(1),
   1685         Encoding(encoding::detectEncoding(Lex.getBuffer())) {
   1686     DEBUG(llvm::dbgs() << "File encoding: "
   1687                        << (Encoding == encoding::Encoding_UTF8 ? "UTF8"
   1688                                                                : "unknown")
   1689                        << "\n");
   1690     DEBUG(llvm::dbgs() << "Language: " << getLanguageName(Style.Language)
   1691                        << "\n");
   1692   }
   1693 
   1694   tooling::Replacements format() {
   1695     tooling::Replacements Result;
   1696     FormatTokenLexer Tokens(Lex, SourceMgr, Style, Encoding);
   1697 
   1698     UnwrappedLineParser Parser(Style, Tokens.lex(), *this);
   1699     bool StructuralError = Parser.parse();
   1700     assert(UnwrappedLines.rbegin()->empty());
   1701     for (unsigned Run = 0, RunE = UnwrappedLines.size(); Run + 1 != RunE;
   1702          ++Run) {
   1703       DEBUG(llvm::dbgs() << "Run " << Run << "...\n");
   1704       SmallVector<AnnotatedLine *, 16> AnnotatedLines;
   1705       for (unsigned i = 0, e = UnwrappedLines[Run].size(); i != e; ++i) {
   1706         AnnotatedLines.push_back(new AnnotatedLine(UnwrappedLines[Run][i]));
   1707       }
   1708       tooling::Replacements RunResult =
   1709           format(AnnotatedLines, StructuralError, Tokens);
   1710       DEBUG({
   1711         llvm::dbgs() << "Replacements for run " << Run << ":\n";
   1712         for (tooling::Replacements::iterator I = RunResult.begin(),
   1713                                              E = RunResult.end();
   1714              I != E; ++I) {
   1715           llvm::dbgs() << I->toString() << "\n";
   1716         }
   1717       });
   1718       for (unsigned i = 0, e = AnnotatedLines.size(); i != e; ++i) {
   1719         delete AnnotatedLines[i];
   1720       }
   1721       Result.insert(RunResult.begin(), RunResult.end());
   1722       Whitespaces.reset();
   1723     }
   1724     return Result;
   1725   }
   1726 
   1727   tooling::Replacements format(SmallVectorImpl<AnnotatedLine *> &AnnotatedLines,
   1728                                bool StructuralError, FormatTokenLexer &Tokens) {
   1729     TokenAnnotator Annotator(Style, Tokens.getIdentTable().get("in"));
   1730     for (unsigned i = 0, e = AnnotatedLines.size(); i != e; ++i) {
   1731       Annotator.annotate(*AnnotatedLines[i]);
   1732     }
   1733     deriveLocalStyle(AnnotatedLines);
   1734     for (unsigned i = 0, e = AnnotatedLines.size(); i != e; ++i) {
   1735       Annotator.calculateFormattingInformation(*AnnotatedLines[i]);
   1736     }
   1737     computeAffectedLines(AnnotatedLines.begin(), AnnotatedLines.end());
   1738 
   1739     Annotator.setCommentLineLevels(AnnotatedLines);
   1740     ContinuationIndenter Indenter(Style, SourceMgr, Whitespaces, Encoding,
   1741                                   BinPackInconclusiveFunctions);
   1742     UnwrappedLineFormatter Formatter(&Indenter, &Whitespaces, Style);
   1743     Formatter.format(AnnotatedLines, /*DryRun=*/false);
   1744     return Whitespaces.generateReplacements();
   1745   }
   1746 
   1747 private:
   1748   // Determines which lines are affected by the SourceRanges given as input.
   1749   // Returns \c true if at least one line between I and E or one of their
   1750   // children is affected.
   1751   bool computeAffectedLines(SmallVectorImpl<AnnotatedLine *>::iterator I,
   1752                             SmallVectorImpl<AnnotatedLine *>::iterator E) {
   1753     bool SomeLineAffected = false;
   1754     const AnnotatedLine *PreviousLine = nullptr;
   1755     while (I != E) {
   1756       AnnotatedLine *Line = *I;
   1757       Line->LeadingEmptyLinesAffected = affectsLeadingEmptyLines(*Line->First);
   1758 
   1759       // If a line is part of a preprocessor directive, it needs to be formatted
   1760       // if any token within the directive is affected.
   1761       if (Line->InPPDirective) {
   1762         FormatToken *Last = Line->Last;
   1763         SmallVectorImpl<AnnotatedLine *>::iterator PPEnd = I + 1;
   1764         while (PPEnd != E && !(*PPEnd)->First->HasUnescapedNewline) {
   1765           Last = (*PPEnd)->Last;
   1766           ++PPEnd;
   1767         }
   1768 
   1769         if (affectsTokenRange(*Line->First, *Last,
   1770                               /*IncludeLeadingNewlines=*/false)) {
   1771           SomeLineAffected = true;
   1772           markAllAsAffected(I, PPEnd);
   1773         }
   1774         I = PPEnd;
   1775         continue;
   1776       }
   1777 
   1778       if (nonPPLineAffected(Line, PreviousLine))
   1779         SomeLineAffected = true;
   1780 
   1781       PreviousLine = Line;
   1782       ++I;
   1783     }
   1784     return SomeLineAffected;
   1785   }
   1786 
   1787   // Determines whether 'Line' is affected by the SourceRanges given as input.
   1788   // Returns \c true if line or one if its children is affected.
   1789   bool nonPPLineAffected(AnnotatedLine *Line,
   1790                          const AnnotatedLine *PreviousLine) {
   1791     bool SomeLineAffected = false;
   1792     Line->ChildrenAffected =
   1793         computeAffectedLines(Line->Children.begin(), Line->Children.end());
   1794     if (Line->ChildrenAffected)
   1795       SomeLineAffected = true;
   1796 
   1797     // Stores whether one of the line's tokens is directly affected.
   1798     bool SomeTokenAffected = false;
   1799     // Stores whether we need to look at the leading newlines of the next token
   1800     // in order to determine whether it was affected.
   1801     bool IncludeLeadingNewlines = false;
   1802 
   1803     // Stores whether the first child line of any of this line's tokens is
   1804     // affected.
   1805     bool SomeFirstChildAffected = false;
   1806 
   1807     for (FormatToken *Tok = Line->First; Tok; Tok = Tok->Next) {
   1808       // Determine whether 'Tok' was affected.
   1809       if (affectsTokenRange(*Tok, *Tok, IncludeLeadingNewlines))
   1810         SomeTokenAffected = true;
   1811 
   1812       // Determine whether the first child of 'Tok' was affected.
   1813       if (!Tok->Children.empty() && Tok->Children.front()->Affected)
   1814         SomeFirstChildAffected = true;
   1815 
   1816       IncludeLeadingNewlines = Tok->Children.empty();
   1817     }
   1818 
   1819     // Was this line moved, i.e. has it previously been on the same line as an
   1820     // affected line?
   1821     bool LineMoved = PreviousLine && PreviousLine->Affected &&
   1822                      Line->First->NewlinesBefore == 0;
   1823 
   1824     bool IsContinuedComment =
   1825         Line->First->is(tok::comment) && Line->First->Next == nullptr &&
   1826         Line->First->NewlinesBefore < 2 && PreviousLine &&
   1827         PreviousLine->Affected && PreviousLine->Last->is(tok::comment);
   1828 
   1829     if (SomeTokenAffected || SomeFirstChildAffected || LineMoved ||
   1830         IsContinuedComment) {
   1831       Line->Affected = true;
   1832       SomeLineAffected = true;
   1833     }
   1834     return SomeLineAffected;
   1835   }
   1836 
   1837   // Marks all lines between I and E as well as all their children as affected.
   1838   void markAllAsAffected(SmallVectorImpl<AnnotatedLine *>::iterator I,
   1839                          SmallVectorImpl<AnnotatedLine *>::iterator E) {
   1840     while (I != E) {
   1841       (*I)->Affected = true;
   1842       markAllAsAffected((*I)->Children.begin(), (*I)->Children.end());
   1843       ++I;
   1844     }
   1845   }
   1846 
   1847   // Returns true if the range from 'First' to 'Last' intersects with one of the
   1848   // input ranges.
   1849   bool affectsTokenRange(const FormatToken &First, const FormatToken &Last,
   1850                          bool IncludeLeadingNewlines) {
   1851     SourceLocation Start = First.WhitespaceRange.getBegin();
   1852     if (!IncludeLeadingNewlines)
   1853       Start = Start.getLocWithOffset(First.LastNewlineOffset);
   1854     SourceLocation End = Last.getStartOfNonWhitespace();
   1855     if (Last.TokenText.size() > 0)
   1856       End = End.getLocWithOffset(Last.TokenText.size() - 1);
   1857     CharSourceRange Range = CharSourceRange::getCharRange(Start, End);
   1858     return affectsCharSourceRange(Range);
   1859   }
   1860 
   1861   // Returns true if one of the input ranges intersect the leading empty lines
   1862   // before 'Tok'.
   1863   bool affectsLeadingEmptyLines(const FormatToken &Tok) {
   1864     CharSourceRange EmptyLineRange = CharSourceRange::getCharRange(
   1865         Tok.WhitespaceRange.getBegin(),
   1866         Tok.WhitespaceRange.getBegin().getLocWithOffset(Tok.LastNewlineOffset));
   1867     return affectsCharSourceRange(EmptyLineRange);
   1868   }
   1869 
   1870   // Returns true if 'Range' intersects with one of the input ranges.
   1871   bool affectsCharSourceRange(const CharSourceRange &Range) {
   1872     for (SmallVectorImpl<CharSourceRange>::const_iterator I = Ranges.begin(),
   1873                                                           E = Ranges.end();
   1874          I != E; ++I) {
   1875       if (!SourceMgr.isBeforeInTranslationUnit(Range.getEnd(), I->getBegin()) &&
   1876           !SourceMgr.isBeforeInTranslationUnit(I->getEnd(), Range.getBegin()))
   1877         return true;
   1878     }
   1879     return false;
   1880   }
   1881 
   1882   static bool inputUsesCRLF(StringRef Text) {
   1883     return Text.count('\r') * 2 > Text.count('\n');
   1884   }
   1885 
   1886   void
   1887   deriveLocalStyle(const SmallVectorImpl<AnnotatedLine *> &AnnotatedLines) {
   1888     unsigned CountBoundToVariable = 0;
   1889     unsigned CountBoundToType = 0;
   1890     bool HasCpp03IncompatibleFormat = false;
   1891     bool HasBinPackedFunction = false;
   1892     bool HasOnePerLineFunction = false;
   1893     for (unsigned i = 0, e = AnnotatedLines.size(); i != e; ++i) {
   1894       if (!AnnotatedLines[i]->First->Next)
   1895         continue;
   1896       FormatToken *Tok = AnnotatedLines[i]->First->Next;
   1897       while (Tok->Next) {
   1898         if (Tok->Type == TT_PointerOrReference) {
   1899           bool SpacesBefore =
   1900               Tok->WhitespaceRange.getBegin() != Tok->WhitespaceRange.getEnd();
   1901           bool SpacesAfter = Tok->Next->WhitespaceRange.getBegin() !=
   1902                              Tok->Next->WhitespaceRange.getEnd();
   1903           if (SpacesBefore && !SpacesAfter)
   1904             ++CountBoundToVariable;
   1905           else if (!SpacesBefore && SpacesAfter)
   1906             ++CountBoundToType;
   1907         }
   1908 
   1909         if (Tok->WhitespaceRange.getBegin() == Tok->WhitespaceRange.getEnd()) {
   1910           if (Tok->is(tok::coloncolon) &&
   1911               Tok->Previous->Type == TT_TemplateOpener)
   1912             HasCpp03IncompatibleFormat = true;
   1913           if (Tok->Type == TT_TemplateCloser &&
   1914               Tok->Previous->Type == TT_TemplateCloser)
   1915             HasCpp03IncompatibleFormat = true;
   1916         }
   1917 
   1918         if (Tok->PackingKind == PPK_BinPacked)
   1919           HasBinPackedFunction = true;
   1920         if (Tok->PackingKind == PPK_OnePerLine)
   1921           HasOnePerLineFunction = true;
   1922 
   1923         Tok = Tok->Next;
   1924       }
   1925     }
   1926     if (Style.DerivePointerAlignment) {
   1927       if (CountBoundToType > CountBoundToVariable)
   1928         Style.PointerAlignment = FormatStyle::PAS_Left;
   1929       else if (CountBoundToType < CountBoundToVariable)
   1930         Style.PointerAlignment = FormatStyle::PAS_Right;
   1931     }
   1932     if (Style.Standard == FormatStyle::LS_Auto) {
   1933       Style.Standard = HasCpp03IncompatibleFormat ? FormatStyle::LS_Cpp11
   1934                                                   : FormatStyle::LS_Cpp03;
   1935     }
   1936     BinPackInconclusiveFunctions =
   1937         HasBinPackedFunction || !HasOnePerLineFunction;
   1938   }
   1939 
   1940   void consumeUnwrappedLine(const UnwrappedLine &TheLine) override {
   1941     assert(!UnwrappedLines.empty());
   1942     UnwrappedLines.back().push_back(TheLine);
   1943   }
   1944 
   1945   void finishRun() override {
   1946     UnwrappedLines.push_back(SmallVector<UnwrappedLine, 16>());
   1947   }
   1948 
   1949   FormatStyle Style;
   1950   Lexer &Lex;
   1951   SourceManager &SourceMgr;
   1952   WhitespaceManager Whitespaces;
   1953   SmallVector<CharSourceRange, 8> Ranges;
   1954   SmallVector<SmallVector<UnwrappedLine, 16>, 2> UnwrappedLines;
   1955 
   1956   encoding::Encoding Encoding;
   1957   bool BinPackInconclusiveFunctions;
   1958 };
   1959 
   1960 } // end anonymous namespace
   1961 
   1962 tooling::Replacements reformat(const FormatStyle &Style, Lexer &Lex,
   1963                                SourceManager &SourceMgr,
   1964                                std::vector<CharSourceRange> Ranges) {
   1965   if (Style.DisableFormat) {
   1966     tooling::Replacements EmptyResult;
   1967     return EmptyResult;
   1968   }
   1969 
   1970   Formatter formatter(Style, Lex, SourceMgr, Ranges);
   1971   return formatter.format();
   1972 }
   1973 
   1974 tooling::Replacements reformat(const FormatStyle &Style, StringRef Code,
   1975                                std::vector<tooling::Range> Ranges,
   1976                                StringRef FileName) {
   1977   FileManager Files((FileSystemOptions()));
   1978   DiagnosticsEngine Diagnostics(
   1979       IntrusiveRefCntPtr<DiagnosticIDs>(new DiagnosticIDs),
   1980       new DiagnosticOptions);
   1981   SourceManager SourceMgr(Diagnostics, Files);
   1982   llvm::MemoryBuffer *Buf = llvm::MemoryBuffer::getMemBuffer(Code, FileName);
   1983   const clang::FileEntry *Entry =
   1984       Files.getVirtualFile(FileName, Buf->getBufferSize(), 0);
   1985   SourceMgr.overrideFileContents(Entry, Buf);
   1986   FileID ID =
   1987       SourceMgr.createFileID(Entry, SourceLocation(), clang::SrcMgr::C_User);
   1988   Lexer Lex(ID, SourceMgr.getBuffer(ID), SourceMgr,
   1989             getFormattingLangOpts(Style.Standard));
   1990   SourceLocation StartOfFile = SourceMgr.getLocForStartOfFile(ID);
   1991   std::vector<CharSourceRange> CharRanges;
   1992   for (unsigned i = 0, e = Ranges.size(); i != e; ++i) {
   1993     SourceLocation Start = StartOfFile.getLocWithOffset(Ranges[i].getOffset());
   1994     SourceLocation End = Start.getLocWithOffset(Ranges[i].getLength());
   1995     CharRanges.push_back(CharSourceRange::getCharRange(Start, End));
   1996   }
   1997   return reformat(Style, Lex, SourceMgr, CharRanges);
   1998 }
   1999 
   2000 LangOptions getFormattingLangOpts(FormatStyle::LanguageStandard Standard) {
   2001   LangOptions LangOpts;
   2002   LangOpts.CPlusPlus = 1;
   2003   LangOpts.CPlusPlus11 = Standard == FormatStyle::LS_Cpp03 ? 0 : 1;
   2004   LangOpts.CPlusPlus1y = Standard == FormatStyle::LS_Cpp03 ? 0 : 1;
   2005   LangOpts.LineComment = 1;
   2006   LangOpts.CXXOperatorNames = 1;
   2007   LangOpts.Bool = 1;
   2008   LangOpts.ObjC1 = 1;
   2009   LangOpts.ObjC2 = 1;
   2010   return LangOpts;
   2011 }
   2012 
   2013 const char *StyleOptionHelpDescription =
   2014     "Coding style, currently supports:\n"
   2015     "  LLVM, Google, Chromium, Mozilla, WebKit.\n"
   2016     "Use -style=file to load style configuration from\n"
   2017     ".clang-format file located in one of the parent\n"
   2018     "directories of the source file (or current\n"
   2019     "directory for stdin).\n"
   2020     "Use -style=\"{key: value, ...}\" to set specific\n"
   2021     "parameters, e.g.:\n"
   2022     "  -style=\"{BasedOnStyle: llvm, IndentWidth: 8}\"";
   2023 
   2024 static FormatStyle::LanguageKind getLanguageByFileName(StringRef FileName) {
   2025   if (FileName.endswith_lower(".js")) {
   2026     return FormatStyle::LK_JavaScript;
   2027   } else if (FileName.endswith_lower(".proto") ||
   2028              FileName.endswith_lower(".protodevel")) {
   2029     return FormatStyle::LK_Proto;
   2030   }
   2031   return FormatStyle::LK_Cpp;
   2032 }
   2033 
   2034 FormatStyle getStyle(StringRef StyleName, StringRef FileName,
   2035                      StringRef FallbackStyle) {
   2036   FormatStyle Style = getLLVMStyle();
   2037   Style.Language = getLanguageByFileName(FileName);
   2038   if (!getPredefinedStyle(FallbackStyle, Style.Language, &Style)) {
   2039     llvm::errs() << "Invalid fallback style \"" << FallbackStyle
   2040                  << "\" using LLVM style\n";
   2041     return Style;
   2042   }
   2043 
   2044   if (StyleName.startswith("{")) {
   2045     // Parse YAML/JSON style from the command line.
   2046     if (std::error_code ec = parseConfiguration(StyleName, &Style)) {
   2047       llvm::errs() << "Error parsing -style: " << ec.message() << ", using "
   2048                    << FallbackStyle << " style\n";
   2049     }
   2050     return Style;
   2051   }
   2052 
   2053   if (!StyleName.equals_lower("file")) {
   2054     if (!getPredefinedStyle(StyleName, Style.Language, &Style))
   2055       llvm::errs() << "Invalid value for -style, using " << FallbackStyle
   2056                    << " style\n";
   2057     return Style;
   2058   }
   2059 
   2060   // Look for .clang-format/_clang-format file in the file's parent directories.
   2061   SmallString<128> UnsuitableConfigFiles;
   2062   SmallString<128> Path(FileName);
   2063   llvm::sys::fs::make_absolute(Path);
   2064   for (StringRef Directory = Path; !Directory.empty();
   2065        Directory = llvm::sys::path::parent_path(Directory)) {
   2066     if (!llvm::sys::fs::is_directory(Directory))
   2067       continue;
   2068     SmallString<128> ConfigFile(Directory);
   2069 
   2070     llvm::sys::path::append(ConfigFile, ".clang-format");
   2071     DEBUG(llvm::dbgs() << "Trying " << ConfigFile << "...\n");
   2072     bool IsFile = false;
   2073     // Ignore errors from is_regular_file: we only need to know if we can read
   2074     // the file or not.
   2075     llvm::sys::fs::is_regular_file(Twine(ConfigFile), IsFile);
   2076 
   2077     if (!IsFile) {
   2078       // Try _clang-format too, since dotfiles are not commonly used on Windows.
   2079       ConfigFile = Directory;
   2080       llvm::sys::path::append(ConfigFile, "_clang-format");
   2081       DEBUG(llvm::dbgs() << "Trying " << ConfigFile << "...\n");
   2082       llvm::sys::fs::is_regular_file(Twine(ConfigFile), IsFile);
   2083     }
   2084 
   2085     if (IsFile) {
   2086       llvm::ErrorOr<std::unique_ptr<llvm::MemoryBuffer>> Text =
   2087           llvm::MemoryBuffer::getFile(ConfigFile.c_str());
   2088       if (std::error_code EC = Text.getError()) {
   2089         llvm::errs() << EC.message() << "\n";
   2090         break;
   2091       }
   2092       if (std::error_code ec =
   2093               parseConfiguration(Text.get()->getBuffer(), &Style)) {
   2094         if (ec == ParseError::Unsuitable) {
   2095           if (!UnsuitableConfigFiles.empty())
   2096             UnsuitableConfigFiles.append(", ");
   2097           UnsuitableConfigFiles.append(ConfigFile);
   2098           continue;
   2099         }
   2100         llvm::errs() << "Error reading " << ConfigFile << ": " << ec.message()
   2101                      << "\n";
   2102         break;
   2103       }
   2104       DEBUG(llvm::dbgs() << "Using configuration file " << ConfigFile << "\n");
   2105       return Style;
   2106     }
   2107   }
   2108   llvm::errs() << "Can't find usable .clang-format, using " << FallbackStyle
   2109                << " style\n";
   2110   if (!UnsuitableConfigFiles.empty()) {
   2111     llvm::errs() << "Configuration file(s) do(es) not support "
   2112                  << getLanguageName(Style.Language) << ": "
   2113                  << UnsuitableConfigFiles << "\n";
   2114   }
   2115   return Style;
   2116 }
   2117 
   2118 } // namespace format
   2119 } // namespace clang
   2120