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//===--- LiteralSupport.h ---------------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file defines the NumericLiteralParser, CharLiteralParser, and
// StringLiteralParser interfaces.
//
//===----------------------------------------------------------------------===//
#ifndef CLANG_LITERALSUPPORT_H
#define CLANG_LITERALSUPPORT_H
#include "clang/Basic/LLVM.h"
#include "llvm/ADT/APFloat.h"
#include "llvm/ADT/SmallString.h"
#include "llvm/Support/DataTypes.h"
#include "clang/Basic/TokenKinds.h"
#include <cctype>
namespace clang {
class DiagnosticsEngine;
class Preprocessor;
class Token;
class SourceLocation;
class TargetInfo;
class SourceManager;
class LangOptions;
/// 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 {
Preprocessor &PP; // needed for diagnostics
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;
public:
NumericLiteralParser(const char *begin, const char *end,
SourceLocation Loc, Preprocessor &PP);
bool hadError;
bool isUnsigned;
bool isLong; // This is *not* set for long long.
bool isLongLong;
bool isFloat; // 1.0f
bool isImaginary; // 1.0i
bool isMicrosoftInteger; // Microsoft suffix extension i8, i16, i32, or i64.
bool isIntegerLiteral() const {
return !saw_period && !saw_exponent;
}
bool isFloatingLiteral() const {
return saw_period || saw_exponent;
}
bool hasUDSuffix() const {
return saw_ud_suffix;
}
StringRef getUDSuffix() const {
assert(saw_ud_suffix);
return StringRef(SuffixBegin, ThisTokEnd - SuffixBegin);
}
unsigned getUDSuffixOffset() const {
assert(saw_ud_suffix);
return SuffixBegin - ThisTokBegin;
}
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);
private:
void ParseNumberStartingWithZero(SourceLocation TokLoc);
/// 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 && isxdigit(*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')))
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))
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'))
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 isAscii() const { return Kind == tok::char_constant; }
bool isWide() const { return Kind == tok::wide_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;
}
};
/// 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;
public:
StringLiteralParser(const Token *StringToks, unsigned NumStringToks,
Preprocessor &PP, bool Complain = true);
StringLiteralParser(const Token *StringToks, unsigned NumStringToks,
const SourceManager &sm, const LangOptions &features,
const TargetInfo &target, DiagnosticsEngine *diags = 0)
: SM(sm), Features(features), Target(target), Diags(diags),
MaxTokenLength(0), SizeBound(0), CharByteWidth(0), Kind(tok::unknown),
ResultPtr(ResultBuf.data()), hadError(false), Pascal(false) {
init(StringToks, NumStringToks);
}
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 isAscii() 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; }
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;
}
private:
void init(const Token *StringToks, unsigned NumStringToks);
bool CopyStringFragment(StringRef Fragment);
bool DiagnoseBadString(const Token& Tok);
};
} // end namespace clang
#endif