//===--- LiteralSupport.h ---------------------------------------*- 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 the NumericLiteralParser, CharLiteralParser, and // StringLiteralParser interfaces. // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_LEX_LITERALSUPPORT_H #define LLVM_CLANG_LEX_LITERALSUPPORT_H #include "clang/Basic/CharInfo.h" #include "clang/Basic/LLVM.h" #include "clang/Basic/TokenKinds.h" #include "llvm/ADT/APFloat.h" #include "llvm/ADT/ArrayRef.h" #include "llvm/ADT/SmallString.h" #include "llvm/ADT/StringRef.h" #include "llvm/Support/DataTypes.h" namespace clang { class DiagnosticsEngine; class Preprocessor; class Token; class SourceLocation; class TargetInfo; class SourceManager; class LangOptions; /// Copy characters from Input to Buf, expanding any UCNs. void expandUCNs(SmallVectorImpl &Buf, StringRef Input); /// Return true if the token corresponds to a function local predefined macro, /// which expands to a string literal, that can be concatenated with other /// string literals (only in Microsoft mode). bool isFunctionLocalStringLiteralMacro(tok::TokenKind K, const LangOptions &LO); /// Return true if the token is a string literal, or a function local /// predefined macro, which expands to a string literal. bool tokenIsLikeStringLiteral(const Token &Tok, const LangOptions &LO); /// NumericLiteralParser - This performs strict semantic analysis of the content /// of a ppnumber, classifying it as either integer, floating, or erroneous, /// determines the radix of the value and can convert it to a useful value. class NumericLiteralParser { const SourceManager &SM; const LangOptions &LangOpts; DiagnosticsEngine &Diags; const char *const ThisTokBegin; const char *const ThisTokEnd; const char *DigitsBegin, *SuffixBegin; // markers const char *s; // cursor unsigned radix; bool saw_exponent, saw_period, saw_ud_suffix, saw_fixed_point_suffix; SmallString<32> UDSuffixBuf; public: NumericLiteralParser(StringRef TokSpelling, SourceLocation TokLoc, const SourceManager &SM, const LangOptions &LangOpts, const TargetInfo &Target, DiagnosticsEngine &Diags); bool hadError : 1; bool isUnsigned : 1; bool isLong : 1; // This is *not* set for long long. bool isLongLong : 1; bool isSizeT : 1; // 1z, 1uz (C++23) bool isHalf : 1; // 1.0h bool isFloat : 1; // 1.0f bool isImaginary : 1; // 1.0i bool isFloat16 : 1; // 1.0f16 bool isFloat128 : 1; // 1.0q bool isFract : 1; // 1.0hr/r/lr/uhr/ur/ulr bool isAccum : 1; // 1.0hk/k/lk/uhk/uk/ulk bool isBitInt : 1; // 1wb, 1uwb (C23) uint8_t MicrosoftInteger; // Microsoft suffix extension i8, i16, i32, or i64. bool isFixedPointLiteral() const { return (saw_period || saw_exponent) && saw_fixed_point_suffix; } bool isIntegerLiteral() const { return !saw_period && !saw_exponent && !isFixedPointLiteral(); } bool isFloatingLiteral() const { return (saw_period || saw_exponent) && !isFixedPointLiteral(); } bool hasUDSuffix() const { return saw_ud_suffix; } StringRef getUDSuffix() const { assert(saw_ud_suffix); return UDSuffixBuf; } unsigned getUDSuffixOffset() const { assert(saw_ud_suffix); return SuffixBegin - ThisTokBegin; } static bool isValidUDSuffix(const LangOptions &LangOpts, StringRef Suffix); unsigned getRadix() const { return radix; } /// GetIntegerValue - Convert this numeric literal value to an APInt that /// matches Val's input width. If there is an overflow (i.e., if the unsigned /// value read is larger than the APInt's bits will hold), set Val to the low /// bits of the result and return true. Otherwise, return false. bool GetIntegerValue(llvm::APInt &Val); /// GetFloatValue - Convert this numeric literal to a floating value, using /// the specified APFloat fltSemantics (specifying float, double, etc). /// The optional bool isExact (passed-by-reference) has its value /// set to true if the returned APFloat can represent the number in the /// literal exactly, and false otherwise. llvm::APFloat::opStatus GetFloatValue(llvm::APFloat &Result); /// GetFixedPointValue - Convert this numeric literal value into a /// scaled integer that represents this value. Returns true if an overflow /// occurred when calculating the integral part of the scaled integer or /// calculating the digit sequence of the exponent. bool GetFixedPointValue(llvm::APInt &StoreVal, unsigned Scale); /// Get the digits that comprise the literal. This excludes any prefix or /// suffix associated with the literal. StringRef getLiteralDigits() const { assert(!hadError && "cannot reliably get the literal digits with an error"); return StringRef(DigitsBegin, SuffixBegin - DigitsBegin); } private: void ParseNumberStartingWithZero(SourceLocation TokLoc); void ParseDecimalOrOctalCommon(SourceLocation TokLoc); static bool isDigitSeparator(char C) { return C == '\''; } /// Determine whether the sequence of characters [Start, End) contains /// any real digits (not digit separators). bool containsDigits(const char *Start, const char *End) { return Start != End && (Start + 1 != End || !isDigitSeparator(Start[0])); } enum CheckSeparatorKind { CSK_BeforeDigits, CSK_AfterDigits }; /// Ensure that we don't have a digit separator here. void checkSeparator(SourceLocation TokLoc, const char *Pos, CheckSeparatorKind IsAfterDigits); /// SkipHexDigits - Read and skip over any hex digits, up to End. /// Return a pointer to the first non-hex digit or End. const char *SkipHexDigits(const char *ptr) { while (ptr != ThisTokEnd && (isHexDigit(*ptr) || isDigitSeparator(*ptr))) ptr++; return ptr; } /// SkipOctalDigits - Read and skip over any octal digits, up to End. /// Return a pointer to the first non-hex digit or End. const char *SkipOctalDigits(const char *ptr) { while (ptr != ThisTokEnd && ((*ptr >= '0' && *ptr <= '7') || isDigitSeparator(*ptr))) ptr++; return ptr; } /// SkipDigits - Read and skip over any digits, up to End. /// Return a pointer to the first non-hex digit or End. const char *SkipDigits(const char *ptr) { while (ptr != ThisTokEnd && (isDigit(*ptr) || isDigitSeparator(*ptr))) ptr++; return ptr; } /// SkipBinaryDigits - Read and skip over any binary digits, up to End. /// Return a pointer to the first non-binary digit or End. const char *SkipBinaryDigits(const char *ptr) { while (ptr != ThisTokEnd && (*ptr == '0' || *ptr == '1' || isDigitSeparator(*ptr))) ptr++; return ptr; } }; /// CharLiteralParser - Perform interpretation and semantic analysis of a /// character literal. class CharLiteralParser { uint64_t Value; tok::TokenKind Kind; bool IsMultiChar; bool HadError; SmallString<32> UDSuffixBuf; unsigned UDSuffixOffset; public: CharLiteralParser(const char *begin, const char *end, SourceLocation Loc, Preprocessor &PP, tok::TokenKind kind); bool hadError() const { return HadError; } bool isOrdinary() const { return Kind == tok::char_constant; } bool isWide() const { return Kind == tok::wide_char_constant; } bool isUTF8() const { return Kind == tok::utf8_char_constant; } bool isUTF16() const { return Kind == tok::utf16_char_constant; } bool isUTF32() const { return Kind == tok::utf32_char_constant; } bool isMultiChar() const { return IsMultiChar; } uint64_t getValue() const { return Value; } StringRef getUDSuffix() const { return UDSuffixBuf; } unsigned getUDSuffixOffset() const { assert(!UDSuffixBuf.empty() && "no ud-suffix"); return UDSuffixOffset; } }; enum class StringLiteralEvalMethod { Evaluated, Unevaluated, }; /// StringLiteralParser - This decodes string escape characters and performs /// wide string analysis and Translation Phase #6 (concatenation of string /// literals) (C99 5.1.1.2p1). class StringLiteralParser { const SourceManager &SM; const LangOptions &Features; const TargetInfo &Target; DiagnosticsEngine *Diags; unsigned MaxTokenLength; unsigned SizeBound; unsigned CharByteWidth; tok::TokenKind Kind; SmallString<512> ResultBuf; char *ResultPtr; // cursor SmallString<32> UDSuffixBuf; unsigned UDSuffixToken; unsigned UDSuffixOffset; StringLiteralEvalMethod EvalMethod; public: StringLiteralParser(ArrayRef StringToks, Preprocessor &PP, StringLiteralEvalMethod StringMethod = StringLiteralEvalMethod::Evaluated); StringLiteralParser(ArrayRef StringToks, const SourceManager &sm, const LangOptions &features, const TargetInfo &target, DiagnosticsEngine *diags = nullptr) : SM(sm), Features(features), Target(target), Diags(diags), MaxTokenLength(0), SizeBound(0), CharByteWidth(0), Kind(tok::unknown), ResultPtr(ResultBuf.data()), EvalMethod(StringLiteralEvalMethod::Evaluated), hadError(false), Pascal(false) { init(StringToks); } bool hadError; bool Pascal; StringRef GetString() const { return StringRef(ResultBuf.data(), GetStringLength()); } unsigned GetStringLength() const { return ResultPtr-ResultBuf.data(); } unsigned GetNumStringChars() const { return GetStringLength() / CharByteWidth; } /// getOffsetOfStringByte - This function returns the offset of the /// specified byte of the string data represented by Token. This handles /// advancing over escape sequences in the string. /// /// If the Diagnostics pointer is non-null, then this will do semantic /// checking of the string literal and emit errors and warnings. unsigned getOffsetOfStringByte(const Token &TheTok, unsigned ByteNo) const; bool isOrdinary() const { return Kind == tok::string_literal; } bool isWide() const { return Kind == tok::wide_string_literal; } bool isUTF8() const { return Kind == tok::utf8_string_literal; } bool isUTF16() const { return Kind == tok::utf16_string_literal; } bool isUTF32() const { return Kind == tok::utf32_string_literal; } bool isPascal() const { return Pascal; } bool isUnevaluated() const { return EvalMethod == StringLiteralEvalMethod::Unevaluated; } StringRef getUDSuffix() const { return UDSuffixBuf; } /// Get the index of a token containing a ud-suffix. unsigned getUDSuffixToken() const { assert(!UDSuffixBuf.empty() && "no ud-suffix"); return UDSuffixToken; } /// Get the spelling offset of the first byte of the ud-suffix. unsigned getUDSuffixOffset() const { assert(!UDSuffixBuf.empty() && "no ud-suffix"); return UDSuffixOffset; } static bool isValidUDSuffix(const LangOptions &LangOpts, StringRef Suffix); private: void init(ArrayRef StringToks); bool CopyStringFragment(const Token &Tok, const char *TokBegin, StringRef Fragment); void DiagnoseLexingError(SourceLocation Loc); }; } // end namespace clang #endif