doxygen/FormatString_8h_source.html

 //= FormatString.h - Analysis of printf/fprintf format strings --*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 // This file defines APIs for analyzing the format strings of printf, fscanf,
 // and friends.
 //
 // The structure of format strings for fprintf are described in C99 7.19.6.1.
 //
 // The structure of format strings for fscanf are described in C99 7.19.6.2.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CLANG_ANALYSIS_ANALYSES_FORMATSTRING_H
 #define LLVM_CLANG_ANALYSIS_ANALYSES_FORMATSTRING_H

 #include "clang/AST/CanonicalType.h"

 namespace clang {

 class TargetInfo;

 //===----------------------------------------------------------------------===//
 /// Common components of both fprintf and fscanf format strings.
 namespace analyze_format_string {

 /// Class representing optional flags with location and representation
 /// information.
 class OptionalFlag {
 public:
   OptionalFlag(const char *Representation)
       : representation(Representation), flag(false) {}
   bool isSet() const { return flag; }
   void set() { flag = true; }
   void clear() { flag = false; }
   void setPosition(const char *position) {
     assert(position);
     flag = true;
     this->position = position;
   }
   const char *getPosition() const {
     assert(position);
     return position;
   }
   const char *toString() const { return representation; }

   // Overloaded operators for bool like qualities
   explicit operator bool() const { return flag; }
   OptionalFlag& operator=(const bool &rhs) {
     flag = rhs;
     return *this;  // Return a reference to myself.
   }
 private:
   const char *representation;
   const char *position;
   bool flag;
 };

 /// Represents the length modifier in a format string in scanf/printf.
 class LengthModifier {
 public:
   enum Kind {
     None,
     AsChar,       // 'hh'
     AsShort,      // 'h'
     AsShortLong,  // 'hl' (OpenCL float/int vector element)
     AsLong,       // 'l'
     AsLongLong,   // 'll'
     AsQuad,       // 'q' (BSD, deprecated, for 64-bit integer types)
     AsIntMax,     // 'j'
     AsSizeT,      // 'z'
     AsPtrDiff,    // 't'
     AsInt32,      // 'I32' (MSVCRT, like __int32)
     AsInt3264,    // 'I'   (MSVCRT, like __int3264 from MIDL)
     AsInt64,      // 'I64' (MSVCRT, like __int64)
     AsLongDouble, // 'L'
     AsAllocate,   // for '%as', GNU extension to C90 scanf
     AsMAllocate,  // for '%ms', GNU extension to scanf
     AsWide,       // 'w' (MSVCRT, like l but only for c, C, s, S, or Z
     AsWideChar = AsLong // for '%ls', only makes sense for printf
   };

   LengthModifier()
     : Position(nullptr), kind(None) {}
   LengthModifier(const char *pos, Kind k)
     : Position(pos), kind(k) {}

   const char *getStart() const {
     return Position;
   }

   unsigned getLength() const {
     switch (kind) {
       default:
         return 1;
       case AsLongLong:
       case AsChar:
         return 2;
       case AsInt32:
       case AsInt64:
         return 3;
       case None:
         return 0;
     }
   }

   Kind getKind() const { return kind; }
   void setKind(Kind k) { kind = k; }

   const char *toString() const;

 private:
   const char *Position;
   Kind kind;
 };

 class ConversionSpecifier {
 public:
   enum Kind {
     InvalidSpecifier = 0,
     // C99 conversion specifiers.
     cArg,
     dArg,
     DArg, // Apple extension
     iArg,
     IntArgBeg = dArg,
     IntArgEnd = iArg,

     oArg,
     OArg, // Apple extension
     uArg,
     UArg, // Apple extension
     xArg,
     XArg,
     UIntArgBeg = oArg,
     UIntArgEnd = XArg,

     fArg,
     FArg,
     eArg,
     EArg,
     gArg,
     GArg,
     aArg,
     AArg,
     DoubleArgBeg = fArg,
     DoubleArgEnd = AArg,

     sArg,
     pArg,
     nArg,
     PercentArg,
     CArg,
     SArg,

     // Apple extension: P specifies to os_log that the data being pointed to is
     // to be copied by os_log. The precision indicates the number of bytes to
     // copy.
     PArg,

     // ** Printf-specific **

     ZArg, // MS extension

     // Objective-C specific specifiers.
     ObjCObjArg, // '@'
     ObjCBeg = ObjCObjArg,
     ObjCEnd = ObjCObjArg,

     // FreeBSD kernel specific specifiers.
     FreeBSDbArg,
     FreeBSDDArg,
     FreeBSDrArg,
     FreeBSDyArg,

     // GlibC specific specifiers.
     PrintErrno, // 'm'

     PrintfConvBeg = ObjCObjArg,
     PrintfConvEnd = PrintErrno,

     // ** Scanf-specific **
     ScanListArg, // '['
     ScanfConvBeg = ScanListArg,
     ScanfConvEnd = ScanListArg
   };

   ConversionSpecifier(bool isPrintf = true)
     : IsPrintf(isPrintf), Position(nullptr), EndScanList(nullptr),
       kind(InvalidSpecifier) {}

   ConversionSpecifier(bool isPrintf, const char *pos, Kind k)
     : IsPrintf(isPrintf), Position(pos), EndScanList(nullptr), kind(k) {}

   const char *getStart() const {
     return Position;
   }

   StringRef getCharacters() const {
     return StringRef(getStart(), getLength());
   }

   bool consumesDataArgument() const {
     switch (kind) {
       case PrintErrno:
         assert(IsPrintf);
         return false;
       case PercentArg:
         return false;
       case InvalidSpecifier:
         return false;
       default:
         return true;
     }
   }

   Kind getKind() const { return kind; }
   void setKind(Kind k) { kind = k; }
   unsigned getLength() const {
     return EndScanList ? EndScanList - Position : 1;
   }
   void setEndScanList(const char *pos) { EndScanList = pos; }

   bool isIntArg() const { return (kind >= IntArgBeg && kind <= IntArgEnd) ||
     kind == FreeBSDrArg || kind == FreeBSDyArg; }
   bool isUIntArg() const { return kind >= UIntArgBeg && kind <= UIntArgEnd; }
   bool isAnyIntArg() const { return kind >= IntArgBeg && kind <= UIntArgEnd; }
   bool isDoubleArg() const {
     return kind >= DoubleArgBeg && kind <= DoubleArgEnd;
   }

   const char *toString() const;

   bool isPrintfKind() const { return IsPrintf; }

   Optional<ConversionSpecifier> getStandardSpecifier() const;

 protected:
   bool IsPrintf;
   const char *Position;
   const char *EndScanList;
   Kind kind;
 };

 class ArgType {
 public:
   enum Kind { UnknownTy, InvalidTy, SpecificTy, ObjCPointerTy, CPointerTy,
               AnyCharTy, CStrTy, WCStrTy, WIntTy };

   enum MatchKind { NoMatch = 0, Match = 1, NoMatchPedantic };

 private:
   const Kind K;
   QualType T;
   const char *Name = nullptr;
   bool Ptr = false;

   /// The TypeKind identifies certain well-known types like size_t and
   /// ptrdiff_t.
   enum class TypeKind { DontCare, SizeT, PtrdiffT };
   TypeKind TK = TypeKind::DontCare;

 public:
   ArgType(Kind K = UnknownTy, const char *N = nullptr) : K(K), Name(N) {}
   ArgType(QualType T, const char *N = nullptr) : K(SpecificTy), T(T), Name(N) {}
   ArgType(CanQualType T) : K(SpecificTy), T(T) {}

   static ArgType Invalid() { return ArgType(InvalidTy); }
   bool isValid() const { return K != InvalidTy; }

   bool isSizeT() const { return TK == TypeKind::SizeT; }

   bool isPtrdiffT() const { return TK == TypeKind::PtrdiffT; }

   /// Create an ArgType which corresponds to the type pointer to A.
   static ArgType PtrTo(const ArgType& A) {
     assert(A.K >= InvalidTy && "ArgType cannot be pointer to invalid/unknown");
     ArgType Res = A;
     Res.Ptr = true;
     return Res;
   }

   /// Create an ArgType which corresponds to the size_t/ssize_t type.
   static ArgType makeSizeT(const ArgType &A) {
     ArgType Res = A;
     Res.TK = TypeKind::SizeT;
     return Res;
   }

   /// Create an ArgType which corresponds to the ptrdiff_t/unsigned ptrdiff_t
   /// type.
   static ArgType makePtrdiffT(const ArgType &A) {
     ArgType Res = A;
     Res.TK = TypeKind::PtrdiffT;
     return Res;
   }

   MatchKind matchesType(ASTContext &C, QualType argTy) const;

   QualType getRepresentativeType(ASTContext &C) const;

   ArgType makeVectorType(ASTContext &C, unsigned NumElts) const;

   std::string getRepresentativeTypeName(ASTContext &C) const;
 };

 class OptionalAmount {
 public:
   enum HowSpecified { NotSpecified, Constant, Arg, Invalid };

   OptionalAmount(HowSpecified howSpecified,
                  unsigned amount,
                  const char *amountStart,
                  unsigned amountLength,
                  bool usesPositionalArg)
   : start(amountStart), length(amountLength), hs(howSpecified), amt(amount),
   UsesPositionalArg(usesPositionalArg), UsesDotPrefix(0) {}

   OptionalAmount(bool valid = true)
   : start(nullptr),length(0), hs(valid ? NotSpecified : Invalid), amt(0),
   UsesPositionalArg(0), UsesDotPrefix(0) {}

   explicit OptionalAmount(unsigned Amount)
     : start(nullptr), length(0), hs(Constant), amt(Amount),
     UsesPositionalArg(false), UsesDotPrefix(false) {}

   bool isInvalid() const {
     return hs == Invalid;
   }

   HowSpecified getHowSpecified() const { return hs; }
   void setHowSpecified(HowSpecified h) { hs = h; }

   bool hasDataArgument() const { return hs == Arg; }

   unsigned getArgIndex() const {
     assert(hasDataArgument());
     return amt;
   }

   unsigned getConstantAmount() const {
     assert(hs == Constant);
     return amt;
   }

   const char *getStart() const {
       // We include the . character if it is given.
     return start - UsesDotPrefix;
   }

   unsigned getConstantLength() const {
     assert(hs == Constant);
     return length + UsesDotPrefix;
   }

   ArgType getArgType(ASTContext &Ctx) const;

   void toString(raw_ostream &os) const;

   bool usesPositionalArg() const { return (bool) UsesPositionalArg; }
   unsigned getPositionalArgIndex() const {
     assert(hasDataArgument());
     return amt + 1;
   }

   bool usesDotPrefix() const { return UsesDotPrefix; }
   void setUsesDotPrefix() { UsesDotPrefix = true; }

 private:
   const char *start;
   unsigned length;
   HowSpecified hs;
   unsigned amt;
   bool UsesPositionalArg : 1;
   bool UsesDotPrefix;
 };


 class FormatSpecifier {
 protected:
   LengthModifier LM;
   OptionalAmount FieldWidth;
   ConversionSpecifier CS;
   OptionalAmount VectorNumElts;

   /// Positional arguments, an IEEE extension:
   ///  IEEE Std 1003.1, 2004 Edition
   ///  http://www.opengroup.org/onlinepubs/009695399/functions/printf.html
   bool UsesPositionalArg;
   unsigned argIndex;
 public:
   FormatSpecifier(bool isPrintf)
     : CS(isPrintf), VectorNumElts(false),
       UsesPositionalArg(false), argIndex(0) {}

   void setLengthModifier(LengthModifier lm) {
     LM = lm;
   }

   void setUsesPositionalArg() { UsesPositionalArg = true; }

   void setArgIndex(unsigned i) {
     argIndex = i;
   }

   unsigned getArgIndex() const {
     return argIndex;
   }

   unsigned getPositionalArgIndex() const {
     return argIndex + 1;
   }

   const LengthModifier &getLengthModifier() const {
     return LM;
   }

   const OptionalAmount &getFieldWidth() const {
     return FieldWidth;
   }

   void setVectorNumElts(const OptionalAmount &Amt) {
     VectorNumElts = Amt;
   }

   const OptionalAmount &getVectorNumElts() const {
     return VectorNumElts;
   }

   void setFieldWidth(const OptionalAmount &Amt) {
     FieldWidth = Amt;
   }

   bool usesPositionalArg() const { return UsesPositionalArg; }

   bool hasValidLengthModifier(const TargetInfo &Target,
                               const LangOptions &LO) const;

   bool hasStandardLengthModifier() const;

   Optional<LengthModifier> getCorrectedLengthModifier() const;

   bool hasStandardConversionSpecifier(const LangOptions &LangOpt) const;

   bool hasStandardLengthConversionCombination() const;

   /// For a TypedefType QT, if it is a named integer type such as size_t,
   /// assign the appropriate value to LM and return true.
   static bool namedTypeToLengthModifier(QualType QT, LengthModifier &LM);
 };

 } // end analyze_format_string namespace

 //===----------------------------------------------------------------------===//
 /// Pieces specific to fprintf format strings.

 namespace analyze_printf {

 class PrintfConversionSpecifier :
   public analyze_format_string::ConversionSpecifier  {
 public:
   PrintfConversionSpecifier()
     : ConversionSpecifier(true, nullptr, InvalidSpecifier) {}

   PrintfConversionSpecifier(const char *pos, Kind k)
     : ConversionSpecifier(true, pos, k) {}

   bool isObjCArg() const { return kind >= ObjCBeg && kind <= ObjCEnd; }
   bool isDoubleArg() const { return kind >= DoubleArgBeg &&
                                     kind <= DoubleArgEnd; }

   static bool classof(const analyze_format_string::ConversionSpecifier *CS) {
     return CS->isPrintfKind();
   }
 };

 using analyze_format_string::ArgType;
 using analyze_format_string::LengthModifier;
 using analyze_format_string::OptionalAmount;
 using analyze_format_string::OptionalFlag;

 class PrintfSpecifier : public analyze_format_string::FormatSpecifier {
   OptionalFlag HasThousandsGrouping; // ''', POSIX extension.
   OptionalFlag IsLeftJustified; // '-'
   OptionalFlag HasPlusPrefix; // '+'
   OptionalFlag HasSpacePrefix; // ' '
   OptionalFlag HasAlternativeForm; // '#'
   OptionalFlag HasLeadingZeroes; // '0'
   OptionalFlag HasObjCTechnicalTerm; // '[tt]'
   OptionalFlag IsPrivate;            // '{private}'
   OptionalFlag IsPublic;             // '{public}'
   OptionalFlag IsSensitive;          // '{sensitive}'
   OptionalAmount Precision;
   StringRef MaskType;

   ArgType getScalarArgType(ASTContext &Ctx, bool IsObjCLiteral) const;

 public:
   PrintfSpecifier()
       : FormatSpecifier(/* isPrintf = */ true), HasThousandsGrouping("'"),
         IsLeftJustified("-"), HasPlusPrefix("+"), HasSpacePrefix(" "),
         HasAlternativeForm("#"), HasLeadingZeroes("0"),
         HasObjCTechnicalTerm("tt"), IsPrivate("private"), IsPublic("public"),
         IsSensitive("sensitive") {}

   static PrintfSpecifier Parse(const char *beg, const char *end);

     // Methods for incrementally constructing the PrintfSpecifier.
   void setConversionSpecifier(const PrintfConversionSpecifier &cs) {
     CS = cs;
   }
   void setHasThousandsGrouping(const char *position) {
     HasThousandsGrouping.setPosition(position);
   }
   void setIsLeftJustified(const char *position) {
     IsLeftJustified.setPosition(position);
   }
   void setHasPlusPrefix(const char *position) {
     HasPlusPrefix.setPosition(position);
   }
   void setHasSpacePrefix(const char *position) {
     HasSpacePrefix.setPosition(position);
   }
   void setHasAlternativeForm(const char *position) {
     HasAlternativeForm.setPosition(position);
   }
   void setHasLeadingZeros(const char *position) {
     HasLeadingZeroes.setPosition(position);
   }
   void setHasObjCTechnicalTerm(const char *position) {
     HasObjCTechnicalTerm.setPosition(position);
   }
   void setIsPrivate(const char *position) { IsPrivate.setPosition(position); }
   void setIsPublic(const char *position) { IsPublic.setPosition(position); }
   void setIsSensitive(const char *position) {
     IsSensitive.setPosition(position);
   }
   void setUsesPositionalArg() { UsesPositionalArg = true; }

     // Methods for querying the format specifier.

   const PrintfConversionSpecifier &getConversionSpecifier() const {
     return cast<PrintfConversionSpecifier>(CS);
   }

   void setPrecision(const OptionalAmount &Amt) {
     Precision = Amt;
     Precision.setUsesDotPrefix();
   }

   const OptionalAmount &getPrecision() const {
     return Precision;
   }

   bool consumesDataArgument() const {
     return getConversionSpecifier().consumesDataArgument();
   }

   /// Returns the builtin type that a data argument
   /// paired with this format specifier should have.  This method
   /// will return null if the format specifier does not have
   /// a matching data argument or the matching argument matches
   /// more than one type.
   ArgType getArgType(ASTContext &Ctx, bool IsObjCLiteral) const;

   const OptionalFlag &hasThousandsGrouping() const {
       return HasThousandsGrouping;
   }
   const OptionalFlag &isLeftJustified() const { return IsLeftJustified; }
   const OptionalFlag &hasPlusPrefix() const { return HasPlusPrefix; }
   const OptionalFlag &hasAlternativeForm() const { return HasAlternativeForm; }
   const OptionalFlag &hasLeadingZeros() const { return HasLeadingZeroes; }
   const OptionalFlag &hasSpacePrefix() const { return HasSpacePrefix; }
   const OptionalFlag &hasObjCTechnicalTerm() const { return HasObjCTechnicalTerm; }
   const OptionalFlag &isPrivate() const { return IsPrivate; }
   const OptionalFlag &isPublic() const { return IsPublic; }
   const OptionalFlag &isSensitive() const { return IsSensitive; }
   bool usesPositionalArg() const { return UsesPositionalArg; }

   StringRef getMaskType() const { return MaskType; }
   void setMaskType(StringRef S) { MaskType = S; }

   /// Changes the specifier and length according to a QualType, retaining any
   /// flags or options. Returns true on success, or false when a conversion
   /// was not successful.
   bool fixType(QualType QT, const LangOptions &LangOpt, ASTContext &Ctx,
                bool IsObjCLiteral);

   void toString(raw_ostream &os) const;

   // Validation methods - to check if any element results in undefined behavior
   bool hasValidPlusPrefix() const;
   bool hasValidAlternativeForm() const;
   bool hasValidLeadingZeros() const;
   bool hasValidSpacePrefix() const;
   bool hasValidLeftJustified() const;
   bool hasValidThousandsGroupingPrefix() const;

   bool hasValidPrecision() const;
   bool hasValidFieldWidth() const;
 };
 }  // end analyze_printf namespace

 //===----------------------------------------------------------------------===//
 /// Pieces specific to fscanf format strings.

 namespace analyze_scanf {

 class ScanfConversionSpecifier :
     public analyze_format_string::ConversionSpecifier  {
 public:
   ScanfConversionSpecifier()
     : ConversionSpecifier(false, nullptr, InvalidSpecifier) {}

   ScanfConversionSpecifier(const char *pos, Kind k)
     : ConversionSpecifier(false, pos, k) {}

   static bool classof(const analyze_format_string::ConversionSpecifier *CS) {
     return !CS->isPrintfKind();
   }
 };

 using analyze_format_string::ArgType;
 using analyze_format_string::LengthModifier;
 using analyze_format_string::OptionalAmount;
 using analyze_format_string::OptionalFlag;

 class ScanfSpecifier : public analyze_format_string::FormatSpecifier {
   OptionalFlag SuppressAssignment; // '*'
 public:
   ScanfSpecifier() :
     FormatSpecifier(/* isPrintf = */ false),
     SuppressAssignment("*") {}

   void setSuppressAssignment(const char *position) {
     SuppressAssignment.setPosition(position);
   }

   const OptionalFlag &getSuppressAssignment() const {
     return SuppressAssignment;
   }

   void setConversionSpecifier(const ScanfConversionSpecifier &cs) {
     CS = cs;
   }

   const ScanfConversionSpecifier &getConversionSpecifier() const {
     return cast<ScanfConversionSpecifier>(CS);
   }

   bool consumesDataArgument() const {
     return CS.consumesDataArgument() && !SuppressAssignment;
   }

   ArgType getArgType(ASTContext &Ctx) const;

   bool fixType(QualType QT, QualType RawQT, const LangOptions &LangOpt,
                ASTContext &Ctx);

   void toString(raw_ostream &os) const;

   static ScanfSpecifier Parse(const char *beg, const char *end);
 };

 } // end analyze_scanf namespace

 //===----------------------------------------------------------------------===//
 // Parsing and processing of format strings (both fprintf and fscanf).

 namespace analyze_format_string {

 enum PositionContext { FieldWidthPos = 0, PrecisionPos = 1 };

 class FormatStringHandler {
 public:
   FormatStringHandler() {}
   virtual ~FormatStringHandler();

   virtual void HandleNullChar(const char *nullCharacter) {}

   virtual void HandlePosition(const char *startPos, unsigned posLen) {}

   virtual void HandleInvalidPosition(const char *startPos, unsigned posLen,
                                      PositionContext p) {}

   virtual void HandleZeroPosition(const char *startPos, unsigned posLen) {}

   virtual void HandleIncompleteSpecifier(const char *startSpecifier,
                                          unsigned specifierLen) {}

   virtual void HandleEmptyObjCModifierFlag(const char *startFlags,
                                            unsigned flagsLen) {}

   virtual void HandleInvalidObjCModifierFlag(const char *startFlag,
                                              unsigned flagLen) {}

   virtual void HandleObjCFlagsWithNonObjCConversion(const char *flagsStart,
                                             const char *flagsEnd,
                                             const char *conversionPosition) {}
   // Printf-specific handlers.

   virtual bool HandleInvalidPrintfConversionSpecifier(
                                       const analyze_printf::PrintfSpecifier &FS,
                                       const char *startSpecifier,
                                       unsigned specifierLen) {
     return true;
   }

   virtual bool HandlePrintfSpecifier(const analyze_printf::PrintfSpecifier &FS,
                                      const char *startSpecifier,
                                      unsigned specifierLen) {
     return true;
   }

   /// Handle mask types whose sizes are not between one and eight bytes.
   virtual void handleInvalidMaskType(StringRef MaskType) {}

     // Scanf-specific handlers.

   virtual bool HandleInvalidScanfConversionSpecifier(
                                         const analyze_scanf::ScanfSpecifier &FS,
                                         const char *startSpecifier,
                                         unsigned specifierLen) {
     return true;
   }

   virtual bool HandleScanfSpecifier(const analyze_scanf::ScanfSpecifier &FS,
                                     const char *startSpecifier,
                                     unsigned specifierLen) {
     return true;
   }

   virtual void HandleIncompleteScanList(const char *start, const char *end) {}
 };

 bool ParsePrintfString(FormatStringHandler &H,
                        const char *beg, const char *end, const LangOptions &LO,
                        const TargetInfo &Target, bool isFreeBSDKPrintf);

 bool ParseFormatStringHasSArg(const char *beg, const char *end,
                               const LangOptions &LO, const TargetInfo &Target);

 bool ParseScanfString(FormatStringHandler &H,
                       const char *beg, const char *end, const LangOptions &LO,
                       const TargetInfo &Target);

 } // end analyze_format_string namespace
 } // end clang namespace
 #endif
clang::analyze_format_string::ArgType::isSizeT
bool isSizeT() const
Definition: FormatString.h:275

clang::analyze_format_string::ConversionSpecifier::FreeBSDyArg
Definition: FormatString.h:178

clang::analyze_format_string::OptionalFlag::isSet
bool isSet() const
Definition: FormatString.h:37

clang::analyze_printf::PrintfSpecifier::hasAlternativeForm
const OptionalFlag & hasAlternativeForm() const
Definition: FormatString.h:575

clang::analyze_format_string::FormatSpecifier::setUsesPositionalArg
void setUsesPositionalArg()
Definition: FormatString.h:404

clang::analyze_format_string::FormatStringHandler::HandlePosition
virtual void HandlePosition(const char *startPos, unsigned posLen)
Definition: FormatString.h:685

clang::analyze_format_string::ArgType::makePtrdiffT
static ArgType makePtrdiffT(const ArgType &A)
Create an ArgType which corresponds to the ptrdiff_t/unsigned ptrdiff_t type.
Definition: FormatString.h:296

clang::analyze_format_string::FormatStringHandler::HandleScanfSpecifier
virtual bool HandleScanfSpecifier(const analyze_scanf::ScanfSpecifier &FS, const char *startSpecifier, unsigned specifierLen)
Definition: FormatString.h:731

clang::QualType
A (possibly-)qualified type.
Definition: Type.h:643

clang::analyze_format_string::ConversionSpecifier::XArg
Definition: FormatString.h:138

clang::analyze_format_string::ArgType::ArgType
ArgType(CanQualType T)
Definition: FormatString.h:270

clang::analyze_scanf::ScanfSpecifier::getConversionSpecifier
const ScanfConversionSpecifier & getConversionSpecifier() const
Definition: FormatString.h:651

clang::analyze_format_string::OptionalAmount::OptionalAmount
OptionalAmount(unsigned Amount)
Definition: FormatString.h:327

clang::analyze_printf::PrintfSpecifier::setIsPublic
void setIsPublic(const char *position)
Definition: FormatString.h:538

clang::analyze_scanf::ScanfSpecifier::getSuppressAssignment
const OptionalFlag & getSuppressAssignment() const
Definition: FormatString.h:643

clang::analyze_printf::PrintfSpecifier::consumesDataArgument
bool consumesDataArgument() const
Definition: FormatString.h:559

clang::analyze_format_string::ConversionSpecifier::isIntArg
bool isIntArg() const
Definition: FormatString.h:228

clang::analyze_format_string::ConversionSpecifier::ZArg
Definition: FormatString.h:167

clang::analyze_format_string::ConversionSpecifier::FreeBSDbArg
Definition: FormatString.h:175

clang::analyze_format_string::ConversionSpecifier::SArg
Definition: FormatString.h:158

clang::analyze_format_string::FormatStringHandler::HandleInvalidObjCModifierFlag
virtual void HandleInvalidObjCModifierFlag(const char *startFlag, unsigned flagLen)
Definition: FormatString.h:698

clang::analyze_format_string::LengthModifier::AsShortLong
Definition: FormatString.h:70

clang::analyze_format_string::FormatSpecifier::LM
LengthModifier LM
Definition: FormatString.h:385

clang::analyze_format_string::FormatSpecifier::FormatSpecifier
FormatSpecifier(bool isPrintf)
Definition: FormatString.h:396

clang::analyze_format_string::FormatStringHandler::HandleZeroPosition
virtual void HandleZeroPosition(const char *startPos, unsigned posLen)
Definition: FormatString.h:690

clang::analyze_format_string::OptionalFlag::OptionalFlag
OptionalFlag(const char *Representation)
Definition: FormatString.h:35

clang::analyze_format_string::OptionalFlag::setPosition
void setPosition(const char *position)
Definition: FormatString.h:40

clang::analyze_format_string::OptionalAmount::OptionalAmount
OptionalAmount(bool valid=true)
Definition: FormatString.h:323

clang::analyze_format_string::OptionalAmount::usesDotPrefix
bool usesDotPrefix() const
Definition: FormatString.h:370

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Definition: FormatString.h:64

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Definition: FormatString.h:45

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Definition: FormatString.h:111

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Handle mask types whose sizes are not between one and eight bytes.
Definition: FormatString.h:720

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Create an ArgType which corresponds to the type pointer to A.
Definition: FormatString.h:280

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Definition: FormatString.h:576

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Definition: FormatString.h:574

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Definition: FormatString.h:75

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Definition: FormatString.h:155

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Kind
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Definition: FormatString.h:66

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Definition: FormatString.h:277

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Definition: FormatString.h:268

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Exposes information about the current target.
Definition: TargetInfo.h:161

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Definition: FormatString.h:573

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Definition: FormatString.h:154

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const char * getStart() const
Definition: FormatString.h:92

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Definition: FormatString.h:49

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Definition: stdbool.h:15

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Definition: FormatString.h:223

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Definition: FormatString.h:422

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float __ovld __cnfn length(float p)
Return the length of vector p, i.e., sqrt(p.x2 + p.y 2 + ...)

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Definition: FormatString.h:251

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Definition: FormatString.h:418

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Definition: FormatString.h:473

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Definition: FormatString.h:336

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Definition: FormatString.h:584

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Definition: FormatString.h:39

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Definition: FormatString.h:199

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Definition: FormatString.h:81

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Definition: FormatString.h:537

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Definition: FormatString.h:244

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Class representing optional flags with location and representation information.
Definition: FormatString.h:33

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void setHasThousandsGrouping(const char *position)
Definition: FormatString.h:516

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Definition: FormatString.h:273

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Definition: FormatString.h:632

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Definition: FormatString.h:647

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Definition: FormatString.h:133

clang::analyze_format_string::ConversionSpecifier::GArg
Definition: FormatString.h:147

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unsigned getLength() const
Definition: FormatString.h:96

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HowSpecified
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const PrintfConversionSpecifier & getConversionSpecifier() const
Definition: FormatString.h:546

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virtual bool HandlePrintfSpecifier(const analyze_printf::PrintfSpecifier &FS, const char *startSpecifier, unsigned specifierLen)
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const OptionalFlag & hasObjCTechnicalTerm() const
Definition: FormatString.h:578

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Definition: FormatString.h:251

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Dataflow Directional Tag Classes.
Definition: CFGReachabilityAnalysis.h:21

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void setSuppressAssignment(const char *position)
Definition: FormatString.h:639

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const OptionalAmount & getVectorNumElts() const
Definition: FormatString.h:430

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Definition: FormatString.h:466

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Kind getKind() const
Definition: FormatString.h:221

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Definition: FormatString.h:129

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Definition: FormatString.h:243

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Definition: FormatString.h:176

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void setKind(Kind k)
Definition: FormatString.h:112

clang::analyze_format_string::ConversionSpecifier::PercentArg
Definition: FormatString.h:156

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OptionalFlag & operator=(const bool &rhs)
Definition: FormatString.h:53

clang::analyze_format_string::FormatSpecifier::setArgIndex
void setArgIndex(unsigned i)
Definition: FormatString.h:406

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const OptionalFlag & isPrivate() const
Definition: FormatString.h:579

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Definition: FormatString.h:76

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Definition: FormatString.h:388

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Definition: FormatString.h:394

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Definition: FormatString.h:136

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Definition: FormatString.h:371

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Definition: FormatString.h:315

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void setHasObjCTechnicalTerm(const char *position)
Definition: FormatString.h:534

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HowSpecified getHowSpecified() const
Definition: FormatString.h:335

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const OptionalAmount & getPrecision() const
Definition: FormatString.h:555

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void setHasPlusPrefix(const char *position)
Definition: FormatString.h:522

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Definition: FormatString.h:69

clang::analyze_format_string::LengthModifier::AsIntMax
Definition: FormatString.h:74

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const OptionalFlag & isPublic() const
Definition: FormatString.h:580

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Definition: FormatString.h:144

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const OptionalFlag & hasSpacePrefix() const
Definition: FormatString.h:577

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unsigned getConstantLength() const
Definition: FormatString.h:355

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Definition: FormatString.h:192

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Definition: FormatString.h:680

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Definition: FormatString.h:616

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Definition: FormatString.h:146

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PositionContext
Definition: FormatString.h:676

clang::analyze_scanf::ScanfSpecifier::consumesDataArgument
bool consumesDataArgument() const
Definition: FormatString.h:655

clang::analyze_format_string::FormatStringHandler::HandleIncompleteSpecifier
virtual void HandleIncompleteSpecifier(const char *startSpecifier, unsigned specifierLen)
Definition: FormatString.h:692

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unsigned kind
All of the diagnostics that can be emitted by the frontend.
Definition: DiagnosticIDs.h:60

clang::analyze_format_string::FormatSpecifier::UsesPositionalArg
bool UsesPositionalArg
Positional arguments, an IEEE extension: IEEE Std 1003.1, 2004 Edition http://www.opengroup.org/onlinepubs/009695399/functions/printf.html.
Definition: FormatString.h:393

clang::analyze_format_string::ConversionSpecifier::setEndScanList
void setEndScanList(const char *pos)
Definition: FormatString.h:226

clang::analyze_printf::PrintfConversionSpecifier::classof
static bool classof(const analyze_format_string::ConversionSpecifier *CS)
Definition: FormatString.h:476

clang::analyze_format_string::ConversionSpecifier::setKind
void setKind(Kind k)
Definition: FormatString.h:222

clang::analyze_format_string::ConversionSpecifier::dArg
Definition: FormatString.h:127

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ConversionSpecifier(bool isPrintf, const char *pos, Kind k)
Definition: FormatString.h:196

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bool isUIntArg() const
Definition: FormatString.h:230

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bool ParsePrintfString(FormatStringHandler &H, const char *beg, const char *end, const LangOptions &LO, const TargetInfo &Target, bool isFreeBSDKPrintf)
Definition: PrintfFormatString.cpp:406

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#define true
Definition: stdbool.h:16

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Definition: FormatString.h:539

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Definition: FormatString.h:400

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LengthModifier(const char *pos, Kind k)
Definition: FormatString.h:89

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Definition: FormatString.h:737

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Definition: FormatString.h:232

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virtual bool HandleInvalidScanfConversionSpecifier(const analyze_scanf::ScanfSpecifier &FS, const char *startSpecifier, unsigned specifierLen)
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