12345678910111213141516171819202122232425262728293031323334353637383940414243444546474849505152535455565758596061626364656667686970717273747576777879808182838485868788899091929394959697989910010110210310410510610710810911011111211311411511611711811912012112212312412512612712812913013113213313413513613713813914014114214314414514614714814915015115215315415515615715815916016116216316416516616716816917017117217317417517617717817918018118218318418518618718818919019119219319419519619719819920020120220320420520620720820921021121221321421521621721821922022122222322422522622722822923023123223323423523623723823924024124224324424524624724824925025125225325425525625725825926026126226326426526626726826927027127227327427527627727827928028128228328428528628728828929029129229329429529629729829930030130230330430530630730830931031131231331431531631731831932032132232332432532632732832933033133233333433533633733833934034134234334434534634734834935035135235335435535635735835936036136236336436536636736836937037137237337437537637737837938038138238338438538638738838939039139239339439539639739839940040140240340440540640740840941041141241341441541641741841942042142242342442542642742842943043143243343443543643743843944044144244344444544644744844945045145245345445545645745845946046146246346446546646746846947047147247347447547647747847948048148248348448548648748848949049149249349449549649749849950050150250350450550650750850951051151251351451551651751851952052152252352452552652752852953053153253353453553653753853954054154254354454554654754854955055155255355455555655755855956056156256356456556656756856957057157257357457557657757857958058158258358458558658758858959059159259359459559659759859960060160260360460560660760860961061161261361461561661761861962062162262362462562662762862963063163263363463563663763863964064164264364464564664764864965065165265365465565665765865966066166266366466566666766866967067167267367467567667767867968068168268368468568668768868969069169269369469569669769869970070170270370470570670770870971071171271371471571671771871972072172272372472572672772872973073173273373473573673773873974074174274374474574674774874975075175275375475575675775875976076176276376476576676776876977077177277377477577677777877978078178278378478578678778878979079179279379479579679779879980080180280380480580680780880981081181281381481581681781881982082182282382482582682782882983083183283383483583683783883984084184284384484584684784884985085185285385485585685785885986086186286386486586686786886987087187287387487587687787887988088188288388488588688788888989089189289389489589689789889990090190290390490590690790890991091191291391491591691791891992092192292392492592692792892993093193293393493593693793893994094194294394494594694794894995095195295395495595695795895996096196296396496596696796896997097197297397497597697797897998098198298398498598698798898999099199299399499599699799899910001001100210031004100510061007100810091010101110121013101410151016101710181019102010211022102310241025102610271028102910301031103210331034103510361037103810391040104110421043104410451046104710481049105010511052105310541055105610571058105910601061106210631064106510661067106810691070107110721073107410751076107710781079108010811082108310841085108610871088108910901091109210931094109510961097109810991100110111021103110411051106110711081109111011111112111311141115111611171118111911201121112211231124112511261127112811291130113111321133113411351136113711381139114011411142114311441145114611471148114911501151115211531154115511561157115811591160116111621163116411651166116711681169117011711172117311741175117611771178117911801181118211831184118511861187118811891190119111921193119411951196119711981199120012011202120312041205120612071208120912101211121212131214121512161217121812191220122112221223122412251226122712281229123012311232123312341235123612371238123912401241124212431244124512461247124812491250125112521253125412551256125712581259126012611262126312641265126612671268126912701271127212731274127512761277127812791280128112821283128412851286128712881289129012911292129312941295129612971298129913001301130213031304130513061307130813091310131113121313131413151316131713181319132013211322132313241325132613271328132913301331133213331334133513361337133813391340134113421343134413451346134713481349135013511352135313541355135613571358135913601361136213631364136513661367136813691370137113721373137413751376137713781379138013811382138313841385138613871388138913901391139213931394139513961397139813991400140114021403140414051406140714081409141014111412141314141415141614171418141914201421142214231424142514261427142814291430143114321433143414351436143714381439144014411442144314441445144614471448144914501451145214531454145514561457145814591460146114621463146414651466146714681469147014711472147314741475147614771478147914801481148214831484148514861487148814891490149114921493149414951496149714981499150015011502150315041505150615071508150915101511151215131514151515161517151815191520152115221523152415251526152715281529153015311532153315341535153615371538153915401541154215431544154515461547154815491550155115521553155415551556155715581559156015611562156315641565156615671568156915701571157215731574157515761577157815791580158115821583158415851586158715881589159015911592159315941595159615971598159916001601160216031604160516061607160816091610161116121613161416151616161716181619162016211622162316241625162616271628162916301631163216331634163516361637163816391640164116421643164416451646164716481649165016511652165316541655165616571658165916601661166216631664166516661667166816691670167116721673167416751676167716781679168016811682168316841685168616871688168916901691169216931694169516961697169816991700170117021703170417051706170717081709171017111712171317141715171617171718171917201721172217231724172517261727172817291730173117321733173417351736173717381739174017411742174317441745174617471748174917501751175217531754175517561757175817591760176117621763176417651766176717681769177017711772177317741775177617771778177917801781178217831784178517861787178817891790179117921793179417951796179717981799180018011802180318041805180618071808180918101811181218131814181518161817181818191820182118221823182418251826182718281829183018311832183318341835183618371838183918401841184218431844184518461847184818491850185118521853185418551856185718581859186018611862186318641865186618671868186918701871187218731874187518761877187818791880188118821883188418851886188718881889189018911892189318941895189618971898189919001901190219031904190519061907190819091910191119121913191419151916191719181919192019211922192319241925192619271928192919301931193219331934193519361937193819391940194119421943194419451946194719481949195019511952195319541955195619571958195919601961196219631964196519661967196819691970197119721973197419751976197719781979198019811982198319841985198619871988198919901991199219931994199519961997199819992000200120022003200420052006200720082009201020112012201320142015201620172018201920202021202220232024202520262027202820292030203120322033203420352036203720382039204020412042204320442045204620472048204920502051205220532054205520562057205820592060206120622063206420652066206720682069207020712072207320742075207620772078207920802081208220832084208520862087208820892090209120922093209420952096209720982099210021012102210321042105210621072108210921102111211221132114211521162117211821192120212121222123212421252126212721282129213021312132213321342135213621372138213921402141214221432144214521462147214821492150215121522153215421552156215721582159216021612162216321642165216621672168216921702171217221732174217521762177217821792180218121822183218421852186218721882189219021912192219321942195219621972198219922002201220222032204220522062207220822092210221122122213221422152216221722182219222022212222222322242225222622272228222922302231223222332234223522362237223822392240224122422243224422452246224722482249225022512252225322542255225622572258225922602261226222632264226522662267226822692270227122722273227422752276227722782279228022812282228322842285228622872288228922902291229222932294229522962297 |
- //===--- LiteralSupport.cpp - Code to parse and process literals ----------===//
- //
- // 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 implements the NumericLiteralParser, CharLiteralParser, and
- // StringLiteralParser interfaces.
- //
- //===----------------------------------------------------------------------===//
- #include "clang/Lex/LiteralSupport.h"
- #include "clang/Basic/CharInfo.h"
- #include "clang/Basic/LangOptions.h"
- #include "clang/Basic/SourceLocation.h"
- #include "clang/Basic/TargetInfo.h"
- #include "clang/Lex/LexDiagnostic.h"
- #include "clang/Lex/Lexer.h"
- #include "clang/Lex/Preprocessor.h"
- #include "clang/Lex/Token.h"
- #include "llvm/ADT/APInt.h"
- #include "llvm/ADT/SmallVector.h"
- #include "llvm/ADT/StringExtras.h"
- #include "llvm/ADT/StringSwitch.h"
- #include "llvm/Support/ConvertUTF.h"
- #include "llvm/Support/Error.h"
- #include "llvm/Support/ErrorHandling.h"
- #include "llvm/Support/Unicode.h"
- #include <algorithm>
- #include <cassert>
- #include <cstddef>
- #include <cstdint>
- #include <cstring>
- #include <string>
- using namespace clang;
- static unsigned getCharWidth(tok::TokenKind kind, const TargetInfo &Target) {
- switch (kind) {
- default: llvm_unreachable("Unknown token type!");
- case tok::char_constant:
- case tok::string_literal:
- case tok::utf8_char_constant:
- case tok::utf8_string_literal:
- return Target.getCharWidth();
- case tok::wide_char_constant:
- case tok::wide_string_literal:
- return Target.getWCharWidth();
- case tok::utf16_char_constant:
- case tok::utf16_string_literal:
- return Target.getChar16Width();
- case tok::utf32_char_constant:
- case tok::utf32_string_literal:
- return Target.getChar32Width();
- }
- }
- static CharSourceRange MakeCharSourceRange(const LangOptions &Features,
- FullSourceLoc TokLoc,
- const char *TokBegin,
- const char *TokRangeBegin,
- const char *TokRangeEnd) {
- SourceLocation Begin =
- Lexer::AdvanceToTokenCharacter(TokLoc, TokRangeBegin - TokBegin,
- TokLoc.getManager(), Features);
- SourceLocation End =
- Lexer::AdvanceToTokenCharacter(Begin, TokRangeEnd - TokRangeBegin,
- TokLoc.getManager(), Features);
- return CharSourceRange::getCharRange(Begin, End);
- }
- /// Produce a diagnostic highlighting some portion of a literal.
- ///
- /// Emits the diagnostic \p DiagID, highlighting the range of characters from
- /// \p TokRangeBegin (inclusive) to \p TokRangeEnd (exclusive), which must be
- /// a substring of a spelling buffer for the token beginning at \p TokBegin.
- static DiagnosticBuilder Diag(DiagnosticsEngine *Diags,
- const LangOptions &Features, FullSourceLoc TokLoc,
- const char *TokBegin, const char *TokRangeBegin,
- const char *TokRangeEnd, unsigned DiagID) {
- SourceLocation Begin =
- Lexer::AdvanceToTokenCharacter(TokLoc, TokRangeBegin - TokBegin,
- TokLoc.getManager(), Features);
- return Diags->Report(Begin, DiagID) <<
- MakeCharSourceRange(Features, TokLoc, TokBegin, TokRangeBegin, TokRangeEnd);
- }
- /// ProcessCharEscape - Parse a standard C escape sequence, which can occur in
- /// either a character or a string literal.
- static unsigned ProcessCharEscape(const char *ThisTokBegin,
- const char *&ThisTokBuf,
- const char *ThisTokEnd, bool &HadError,
- FullSourceLoc Loc, unsigned CharWidth,
- DiagnosticsEngine *Diags,
- const LangOptions &Features) {
- const char *EscapeBegin = ThisTokBuf;
- bool Delimited = false;
- bool EndDelimiterFound = false;
- // Skip the '\' char.
- ++ThisTokBuf;
- // We know that this character can't be off the end of the buffer, because
- // that would have been \", which would not have been the end of string.
- unsigned ResultChar = *ThisTokBuf++;
- switch (ResultChar) {
- // These map to themselves.
- case '\\': case '\'': case '"': case '?': break;
- // These have fixed mappings.
- case 'a':
- // TODO: K&R: the meaning of '\\a' is different in traditional C
- ResultChar = 7;
- break;
- case 'b':
- ResultChar = 8;
- break;
- case 'e':
- if (Diags)
- Diag(Diags, Features, Loc, ThisTokBegin, EscapeBegin, ThisTokBuf,
- diag::ext_nonstandard_escape) << "e";
- ResultChar = 27;
- break;
- case 'E':
- if (Diags)
- Diag(Diags, Features, Loc, ThisTokBegin, EscapeBegin, ThisTokBuf,
- diag::ext_nonstandard_escape) << "E";
- ResultChar = 27;
- break;
- case 'f':
- ResultChar = 12;
- break;
- case 'n':
- ResultChar = 10;
- break;
- case 'r':
- ResultChar = 13;
- break;
- case 't':
- ResultChar = 9;
- break;
- case 'v':
- ResultChar = 11;
- break;
- case 'x': { // Hex escape.
- ResultChar = 0;
- if (ThisTokBuf != ThisTokEnd && *ThisTokBuf == '{') {
- Delimited = true;
- ThisTokBuf++;
- if (*ThisTokBuf == '}') {
- Diag(Diags, Features, Loc, ThisTokBegin, EscapeBegin, ThisTokBuf,
- diag::err_delimited_escape_empty);
- return ResultChar;
- }
- } else if (ThisTokBuf == ThisTokEnd || !isHexDigit(*ThisTokBuf)) {
- if (Diags)
- Diag(Diags, Features, Loc, ThisTokBegin, EscapeBegin, ThisTokBuf,
- diag::err_hex_escape_no_digits) << "x";
- return ResultChar;
- }
- // Hex escapes are a maximal series of hex digits.
- bool Overflow = false;
- for (; ThisTokBuf != ThisTokEnd; ++ThisTokBuf) {
- if (Delimited && *ThisTokBuf == '}') {
- ThisTokBuf++;
- EndDelimiterFound = true;
- break;
- }
- int CharVal = llvm::hexDigitValue(*ThisTokBuf);
- if (CharVal == -1) {
- // Non delimited hex escape sequences stop at the first non-hex digit.
- if (!Delimited)
- break;
- HadError = true;
- if (Diags)
- Diag(Diags, Features, Loc, ThisTokBegin, EscapeBegin, ThisTokBuf,
- diag::err_delimited_escape_invalid)
- << StringRef(ThisTokBuf, 1);
- continue;
- }
- // About to shift out a digit?
- if (ResultChar & 0xF0000000)
- Overflow = true;
- ResultChar <<= 4;
- ResultChar |= CharVal;
- }
- // See if any bits will be truncated when evaluated as a character.
- if (CharWidth != 32 && (ResultChar >> CharWidth) != 0) {
- Overflow = true;
- ResultChar &= ~0U >> (32-CharWidth);
- }
- // Check for overflow.
- if (!HadError && Overflow) { // Too many digits to fit in
- HadError = true;
- if (Diags)
- Diag(Diags, Features, Loc, ThisTokBegin, EscapeBegin, ThisTokBuf,
- diag::err_escape_too_large)
- << 0;
- }
- break;
- }
- case '0': case '1': case '2': case '3':
- case '4': case '5': case '6': case '7': {
- // Octal escapes.
- --ThisTokBuf;
- ResultChar = 0;
- // Octal escapes are a series of octal digits with maximum length 3.
- // "\0123" is a two digit sequence equal to "\012" "3".
- unsigned NumDigits = 0;
- do {
- ResultChar <<= 3;
- ResultChar |= *ThisTokBuf++ - '0';
- ++NumDigits;
- } while (ThisTokBuf != ThisTokEnd && NumDigits < 3 &&
- ThisTokBuf[0] >= '0' && ThisTokBuf[0] <= '7');
- // Check for overflow. Reject '\777', but not L'\777'.
- if (CharWidth != 32 && (ResultChar >> CharWidth) != 0) {
- if (Diags)
- Diag(Diags, Features, Loc, ThisTokBegin, EscapeBegin, ThisTokBuf,
- diag::err_escape_too_large) << 1;
- ResultChar &= ~0U >> (32-CharWidth);
- }
- break;
- }
- case 'o': {
- bool Overflow = false;
- if (ThisTokBuf == ThisTokEnd || *ThisTokBuf != '{') {
- HadError = true;
- if (Diags)
- Diag(Diags, Features, Loc, ThisTokBegin, EscapeBegin, ThisTokBuf,
- diag::err_delimited_escape_missing_brace)
- << "o";
- break;
- }
- ResultChar = 0;
- Delimited = true;
- ++ThisTokBuf;
- if (*ThisTokBuf == '}') {
- Diag(Diags, Features, Loc, ThisTokBegin, EscapeBegin, ThisTokBuf,
- diag::err_delimited_escape_empty);
- return ResultChar;
- }
- while (ThisTokBuf != ThisTokEnd) {
- if (*ThisTokBuf == '}') {
- EndDelimiterFound = true;
- ThisTokBuf++;
- break;
- }
- if (*ThisTokBuf < '0' || *ThisTokBuf > '7') {
- HadError = true;
- if (Diags)
- Diag(Diags, Features, Loc, ThisTokBegin, EscapeBegin, ThisTokBuf,
- diag::err_delimited_escape_invalid)
- << StringRef(ThisTokBuf, 1);
- ThisTokBuf++;
- continue;
- }
- if (ResultChar & 0x020000000)
- Overflow = true;
- ResultChar <<= 3;
- ResultChar |= *ThisTokBuf++ - '0';
- }
- // Check for overflow. Reject '\777', but not L'\777'.
- if (!HadError &&
- (Overflow || (CharWidth != 32 && (ResultChar >> CharWidth) != 0))) {
- HadError = true;
- if (Diags)
- Diag(Diags, Features, Loc, ThisTokBegin, EscapeBegin, ThisTokBuf,
- diag::err_escape_too_large)
- << 1;
- ResultChar &= ~0U >> (32 - CharWidth);
- }
- break;
- }
- // Otherwise, these are not valid escapes.
- case '(': case '{': case '[': case '%':
- // GCC accepts these as extensions. We warn about them as such though.
- if (Diags)
- Diag(Diags, Features, Loc, ThisTokBegin, EscapeBegin, ThisTokBuf,
- diag::ext_nonstandard_escape)
- << std::string(1, ResultChar);
- break;
- default:
- if (!Diags)
- break;
- if (isPrintable(ResultChar))
- Diag(Diags, Features, Loc, ThisTokBegin, EscapeBegin, ThisTokBuf,
- diag::ext_unknown_escape)
- << std::string(1, ResultChar);
- else
- Diag(Diags, Features, Loc, ThisTokBegin, EscapeBegin, ThisTokBuf,
- diag::ext_unknown_escape)
- << "x" + llvm::utohexstr(ResultChar);
- break;
- }
- if (Delimited && Diags) {
- if (!EndDelimiterFound)
- Diag(Diags, Features, Loc, ThisTokBegin, EscapeBegin, ThisTokBuf,
- diag::err_expected)
- << tok::r_brace;
- else if (!HadError) {
- Diag(Diags, Features, Loc, ThisTokBegin, EscapeBegin, ThisTokBuf,
- Features.CPlusPlus2b ? diag::warn_cxx2b_delimited_escape_sequence
- : diag::ext_delimited_escape_sequence)
- << /*delimited*/ 0 << (Features.CPlusPlus ? 1 : 0);
- }
- }
- return ResultChar;
- }
- static void appendCodePoint(unsigned Codepoint,
- llvm::SmallVectorImpl<char> &Str) {
- char ResultBuf[4];
- char *ResultPtr = ResultBuf;
- if (llvm::ConvertCodePointToUTF8(Codepoint, ResultPtr))
- Str.append(ResultBuf, ResultPtr);
- }
- void clang::expandUCNs(SmallVectorImpl<char> &Buf, StringRef Input) {
- for (StringRef::iterator I = Input.begin(), E = Input.end(); I != E; ++I) {
- if (*I != '\\') {
- Buf.push_back(*I);
- continue;
- }
- ++I;
- char Kind = *I;
- ++I;
- assert(Kind == 'u' || Kind == 'U' || Kind == 'N');
- uint32_t CodePoint = 0;
- if (Kind == 'u' && *I == '{') {
- for (++I; *I != '}'; ++I) {
- unsigned Value = llvm::hexDigitValue(*I);
- assert(Value != -1U);
- CodePoint <<= 4;
- CodePoint += Value;
- }
- appendCodePoint(CodePoint, Buf);
- continue;
- }
- if (Kind == 'N') {
- assert(*I == '{');
- ++I;
- auto Delim = std::find(I, Input.end(), '}');
- assert(Delim != Input.end());
- std::optional<llvm::sys::unicode::LooseMatchingResult> Res =
- llvm::sys::unicode::nameToCodepointLooseMatching(
- StringRef(I, std::distance(I, Delim)));
- assert(Res);
- CodePoint = Res->CodePoint;
- assert(CodePoint != 0xFFFFFFFF);
- appendCodePoint(CodePoint, Buf);
- I = Delim;
- continue;
- }
- unsigned NumHexDigits;
- if (Kind == 'u')
- NumHexDigits = 4;
- else
- NumHexDigits = 8;
- assert(I + NumHexDigits <= E);
- for (; NumHexDigits != 0; ++I, --NumHexDigits) {
- unsigned Value = llvm::hexDigitValue(*I);
- assert(Value != -1U);
- CodePoint <<= 4;
- CodePoint += Value;
- }
- appendCodePoint(CodePoint, Buf);
- --I;
- }
- }
- static bool ProcessNumericUCNEscape(const char *ThisTokBegin,
- const char *&ThisTokBuf,
- const char *ThisTokEnd, uint32_t &UcnVal,
- unsigned short &UcnLen, bool &Delimited,
- FullSourceLoc Loc, DiagnosticsEngine *Diags,
- const LangOptions &Features,
- bool in_char_string_literal = false) {
- const char *UcnBegin = ThisTokBuf;
- bool HasError = false;
- bool EndDelimiterFound = false;
- // Skip the '\u' char's.
- ThisTokBuf += 2;
- Delimited = false;
- if (UcnBegin[1] == 'u' && in_char_string_literal &&
- ThisTokBuf != ThisTokEnd && *ThisTokBuf == '{') {
- Delimited = true;
- ThisTokBuf++;
- } else if (ThisTokBuf == ThisTokEnd || !isHexDigit(*ThisTokBuf)) {
- if (Diags)
- Diag(Diags, Features, Loc, ThisTokBegin, UcnBegin, ThisTokBuf,
- diag::err_hex_escape_no_digits)
- << StringRef(&ThisTokBuf[-1], 1);
- return false;
- }
- UcnLen = (ThisTokBuf[-1] == 'u' ? 4 : 8);
- bool Overflow = false;
- unsigned short Count = 0;
- for (; ThisTokBuf != ThisTokEnd && (Delimited || Count != UcnLen);
- ++ThisTokBuf) {
- if (Delimited && *ThisTokBuf == '}') {
- ++ThisTokBuf;
- EndDelimiterFound = true;
- break;
- }
- int CharVal = llvm::hexDigitValue(*ThisTokBuf);
- if (CharVal == -1) {
- HasError = true;
- if (!Delimited)
- break;
- if (Diags) {
- Diag(Diags, Features, Loc, ThisTokBegin, UcnBegin, ThisTokBuf,
- diag::err_delimited_escape_invalid)
- << StringRef(ThisTokBuf, 1);
- }
- Count++;
- continue;
- }
- if (UcnVal & 0xF0000000) {
- Overflow = true;
- continue;
- }
- UcnVal <<= 4;
- UcnVal |= CharVal;
- Count++;
- }
- if (Overflow) {
- if (Diags)
- Diag(Diags, Features, Loc, ThisTokBegin, UcnBegin, ThisTokBuf,
- diag::err_escape_too_large)
- << 0;
- return false;
- }
- if (Delimited && !EndDelimiterFound) {
- if (Diags) {
- Diag(Diags, Features, Loc, ThisTokBegin, UcnBegin, ThisTokBuf,
- diag::err_expected)
- << tok::r_brace;
- }
- return false;
- }
- // If we didn't consume the proper number of digits, there is a problem.
- if (Count == 0 || (!Delimited && Count != UcnLen)) {
- if (Diags)
- Diag(Diags, Features, Loc, ThisTokBegin, UcnBegin, ThisTokBuf,
- Delimited ? diag::err_delimited_escape_empty
- : diag::err_ucn_escape_incomplete);
- return false;
- }
- return !HasError;
- }
- static void DiagnoseInvalidUnicodeCharacterName(
- DiagnosticsEngine *Diags, const LangOptions &Features, FullSourceLoc Loc,
- const char *TokBegin, const char *TokRangeBegin, const char *TokRangeEnd,
- llvm::StringRef Name) {
- Diag(Diags, Features, Loc, TokBegin, TokRangeBegin, TokRangeEnd,
- diag::err_invalid_ucn_name)
- << Name;
- namespace u = llvm::sys::unicode;
- std::optional<u::LooseMatchingResult> Res =
- u::nameToCodepointLooseMatching(Name);
- if (Res) {
- Diag(Diags, Features, Loc, TokBegin, TokRangeBegin, TokRangeEnd,
- diag::note_invalid_ucn_name_loose_matching)
- << FixItHint::CreateReplacement(
- MakeCharSourceRange(Features, Loc, TokBegin, TokRangeBegin,
- TokRangeEnd),
- Res->Name);
- return;
- }
- unsigned Distance = 0;
- SmallVector<u::MatchForCodepointName> Matches =
- u::nearestMatchesForCodepointName(Name, 5);
- assert(!Matches.empty() && "No unicode characters found");
- for (const auto &Match : Matches) {
- if (Distance == 0)
- Distance = Match.Distance;
- if (std::max(Distance, Match.Distance) -
- std::min(Distance, Match.Distance) >
- 3)
- break;
- Distance = Match.Distance;
- std::string Str;
- llvm::UTF32 V = Match.Value;
- bool Converted =
- llvm::convertUTF32ToUTF8String(llvm::ArrayRef<llvm::UTF32>(&V, 1), Str);
- (void)Converted;
- assert(Converted && "Found a match wich is not a unicode character");
- Diag(Diags, Features, Loc, TokBegin, TokRangeBegin, TokRangeEnd,
- diag::note_invalid_ucn_name_candidate)
- << Match.Name << llvm::utohexstr(Match.Value)
- << Str // FIXME: Fix the rendering of non printable characters
- << FixItHint::CreateReplacement(
- MakeCharSourceRange(Features, Loc, TokBegin, TokRangeBegin,
- TokRangeEnd),
- Match.Name);
- }
- }
- static bool ProcessNamedUCNEscape(const char *ThisTokBegin,
- const char *&ThisTokBuf,
- const char *ThisTokEnd, uint32_t &UcnVal,
- unsigned short &UcnLen, FullSourceLoc Loc,
- DiagnosticsEngine *Diags,
- const LangOptions &Features) {
- const char *UcnBegin = ThisTokBuf;
- assert(UcnBegin[0] == '\\' && UcnBegin[1] == 'N');
- ThisTokBuf += 2;
- if (ThisTokBuf == ThisTokEnd || *ThisTokBuf != '{') {
- if (Diags) {
- Diag(Diags, Features, Loc, ThisTokBegin, UcnBegin, ThisTokBuf,
- diag::err_delimited_escape_missing_brace)
- << StringRef(&ThisTokBuf[-1], 1);
- }
- return false;
- }
- ThisTokBuf++;
- const char *ClosingBrace = std::find_if(ThisTokBuf, ThisTokEnd, [](char C) {
- return C == '}' || isVerticalWhitespace(C);
- });
- bool Incomplete = ClosingBrace == ThisTokEnd;
- bool Empty = ClosingBrace == ThisTokBuf;
- if (Incomplete || Empty) {
- if (Diags) {
- Diag(Diags, Features, Loc, ThisTokBegin, UcnBegin, ThisTokBuf,
- Incomplete ? diag::err_ucn_escape_incomplete
- : diag::err_delimited_escape_empty)
- << StringRef(&UcnBegin[1], 1);
- }
- ThisTokBuf = ClosingBrace == ThisTokEnd ? ClosingBrace : ClosingBrace + 1;
- return false;
- }
- StringRef Name(ThisTokBuf, ClosingBrace - ThisTokBuf);
- ThisTokBuf = ClosingBrace + 1;
- std::optional<char32_t> Res = llvm::sys::unicode::nameToCodepointStrict(Name);
- if (!Res) {
- if (Diags)
- DiagnoseInvalidUnicodeCharacterName(Diags, Features, Loc, ThisTokBegin,
- &UcnBegin[3], ClosingBrace, Name);
- return false;
- }
- UcnVal = *Res;
- UcnLen = UcnVal > 0xFFFF ? 8 : 4;
- return true;
- }
- /// ProcessUCNEscape - Read the Universal Character Name, check constraints and
- /// return the UTF32.
- static bool ProcessUCNEscape(const char *ThisTokBegin, const char *&ThisTokBuf,
- const char *ThisTokEnd, uint32_t &UcnVal,
- unsigned short &UcnLen, FullSourceLoc Loc,
- DiagnosticsEngine *Diags,
- const LangOptions &Features,
- bool in_char_string_literal = false) {
- bool HasError;
- const char *UcnBegin = ThisTokBuf;
- bool IsDelimitedEscapeSequence = false;
- bool IsNamedEscapeSequence = false;
- if (ThisTokBuf[1] == 'N') {
- IsNamedEscapeSequence = true;
- HasError = !ProcessNamedUCNEscape(ThisTokBegin, ThisTokBuf, ThisTokEnd,
- UcnVal, UcnLen, Loc, Diags, Features);
- } else {
- HasError =
- !ProcessNumericUCNEscape(ThisTokBegin, ThisTokBuf, ThisTokEnd, UcnVal,
- UcnLen, IsDelimitedEscapeSequence, Loc, Diags,
- Features, in_char_string_literal);
- }
- if (HasError)
- return false;
- // Check UCN constraints (C99 6.4.3p2) [C++11 lex.charset p2]
- if ((0xD800 <= UcnVal && UcnVal <= 0xDFFF) || // surrogate codepoints
- UcnVal > 0x10FFFF) { // maximum legal UTF32 value
- if (Diags)
- Diag(Diags, Features, Loc, ThisTokBegin, UcnBegin, ThisTokBuf,
- diag::err_ucn_escape_invalid);
- return false;
- }
- // C++11 allows UCNs that refer to control characters and basic source
- // characters inside character and string literals
- if (UcnVal < 0xa0 &&
- (UcnVal != 0x24 && UcnVal != 0x40 && UcnVal != 0x60)) { // $, @, `
- bool IsError = (!Features.CPlusPlus11 || !in_char_string_literal);
- if (Diags) {
- char BasicSCSChar = UcnVal;
- if (UcnVal >= 0x20 && UcnVal < 0x7f)
- Diag(Diags, Features, Loc, ThisTokBegin, UcnBegin, ThisTokBuf,
- IsError ? diag::err_ucn_escape_basic_scs :
- diag::warn_cxx98_compat_literal_ucn_escape_basic_scs)
- << StringRef(&BasicSCSChar, 1);
- else
- Diag(Diags, Features, Loc, ThisTokBegin, UcnBegin, ThisTokBuf,
- IsError ? diag::err_ucn_control_character :
- diag::warn_cxx98_compat_literal_ucn_control_character);
- }
- if (IsError)
- return false;
- }
- if (!Features.CPlusPlus && !Features.C99 && Diags)
- Diag(Diags, Features, Loc, ThisTokBegin, UcnBegin, ThisTokBuf,
- diag::warn_ucn_not_valid_in_c89_literal);
- if ((IsDelimitedEscapeSequence || IsNamedEscapeSequence) && Diags)
- Diag(Diags, Features, Loc, ThisTokBegin, UcnBegin, ThisTokBuf,
- Features.CPlusPlus2b ? diag::warn_cxx2b_delimited_escape_sequence
- : diag::ext_delimited_escape_sequence)
- << (IsNamedEscapeSequence ? 1 : 0) << (Features.CPlusPlus ? 1 : 0);
- return true;
- }
- /// MeasureUCNEscape - Determine the number of bytes within the resulting string
- /// which this UCN will occupy.
- static int MeasureUCNEscape(const char *ThisTokBegin, const char *&ThisTokBuf,
- const char *ThisTokEnd, unsigned CharByteWidth,
- const LangOptions &Features, bool &HadError) {
- // UTF-32: 4 bytes per escape.
- if (CharByteWidth == 4)
- return 4;
- uint32_t UcnVal = 0;
- unsigned short UcnLen = 0;
- FullSourceLoc Loc;
- if (!ProcessUCNEscape(ThisTokBegin, ThisTokBuf, ThisTokEnd, UcnVal,
- UcnLen, Loc, nullptr, Features, true)) {
- HadError = true;
- return 0;
- }
- // UTF-16: 2 bytes for BMP, 4 bytes otherwise.
- if (CharByteWidth == 2)
- return UcnVal <= 0xFFFF ? 2 : 4;
- // UTF-8.
- if (UcnVal < 0x80)
- return 1;
- if (UcnVal < 0x800)
- return 2;
- if (UcnVal < 0x10000)
- return 3;
- return 4;
- }
- /// EncodeUCNEscape - Read the Universal Character Name, check constraints and
- /// convert the UTF32 to UTF8 or UTF16. This is a subroutine of
- /// StringLiteralParser. When we decide to implement UCN's for identifiers,
- /// we will likely rework our support for UCN's.
- static void EncodeUCNEscape(const char *ThisTokBegin, const char *&ThisTokBuf,
- const char *ThisTokEnd,
- char *&ResultBuf, bool &HadError,
- FullSourceLoc Loc, unsigned CharByteWidth,
- DiagnosticsEngine *Diags,
- const LangOptions &Features) {
- typedef uint32_t UTF32;
- UTF32 UcnVal = 0;
- unsigned short UcnLen = 0;
- if (!ProcessUCNEscape(ThisTokBegin, ThisTokBuf, ThisTokEnd, UcnVal, UcnLen,
- Loc, Diags, Features, true)) {
- HadError = true;
- return;
- }
- assert((CharByteWidth == 1 || CharByteWidth == 2 || CharByteWidth == 4) &&
- "only character widths of 1, 2, or 4 bytes supported");
- (void)UcnLen;
- assert((UcnLen== 4 || UcnLen== 8) && "only ucn length of 4 or 8 supported");
- if (CharByteWidth == 4) {
- // FIXME: Make the type of the result buffer correct instead of
- // using reinterpret_cast.
- llvm::UTF32 *ResultPtr = reinterpret_cast<llvm::UTF32*>(ResultBuf);
- *ResultPtr = UcnVal;
- ResultBuf += 4;
- return;
- }
- if (CharByteWidth == 2) {
- // FIXME: Make the type of the result buffer correct instead of
- // using reinterpret_cast.
- llvm::UTF16 *ResultPtr = reinterpret_cast<llvm::UTF16*>(ResultBuf);
- if (UcnVal <= (UTF32)0xFFFF) {
- *ResultPtr = UcnVal;
- ResultBuf += 2;
- return;
- }
- // Convert to UTF16.
- UcnVal -= 0x10000;
- *ResultPtr = 0xD800 + (UcnVal >> 10);
- *(ResultPtr+1) = 0xDC00 + (UcnVal & 0x3FF);
- ResultBuf += 4;
- return;
- }
- assert(CharByteWidth == 1 && "UTF-8 encoding is only for 1 byte characters");
- // Now that we've parsed/checked the UCN, we convert from UTF32->UTF8.
- // The conversion below was inspired by:
- // http://www.unicode.org/Public/PROGRAMS/CVTUTF/ConvertUTF.c
- // First, we determine how many bytes the result will require.
- typedef uint8_t UTF8;
- unsigned short bytesToWrite = 0;
- if (UcnVal < (UTF32)0x80)
- bytesToWrite = 1;
- else if (UcnVal < (UTF32)0x800)
- bytesToWrite = 2;
- else if (UcnVal < (UTF32)0x10000)
- bytesToWrite = 3;
- else
- bytesToWrite = 4;
- const unsigned byteMask = 0xBF;
- const unsigned byteMark = 0x80;
- // Once the bits are split out into bytes of UTF8, this is a mask OR-ed
- // into the first byte, depending on how many bytes follow.
- static const UTF8 firstByteMark[5] = {
- 0x00, 0x00, 0xC0, 0xE0, 0xF0
- };
- // Finally, we write the bytes into ResultBuf.
- ResultBuf += bytesToWrite;
- switch (bytesToWrite) { // note: everything falls through.
- case 4:
- *--ResultBuf = (UTF8)((UcnVal | byteMark) & byteMask); UcnVal >>= 6;
- [[fallthrough]];
- case 3:
- *--ResultBuf = (UTF8)((UcnVal | byteMark) & byteMask); UcnVal >>= 6;
- [[fallthrough]];
- case 2:
- *--ResultBuf = (UTF8)((UcnVal | byteMark) & byteMask); UcnVal >>= 6;
- [[fallthrough]];
- case 1:
- *--ResultBuf = (UTF8) (UcnVal | firstByteMark[bytesToWrite]);
- }
- // Update the buffer.
- ResultBuf += bytesToWrite;
- }
- /// integer-constant: [C99 6.4.4.1]
- /// decimal-constant integer-suffix
- /// octal-constant integer-suffix
- /// hexadecimal-constant integer-suffix
- /// binary-literal integer-suffix [GNU, C++1y]
- /// user-defined-integer-literal: [C++11 lex.ext]
- /// decimal-literal ud-suffix
- /// octal-literal ud-suffix
- /// hexadecimal-literal ud-suffix
- /// binary-literal ud-suffix [GNU, C++1y]
- /// decimal-constant:
- /// nonzero-digit
- /// decimal-constant digit
- /// octal-constant:
- /// 0
- /// octal-constant octal-digit
- /// hexadecimal-constant:
- /// hexadecimal-prefix hexadecimal-digit
- /// hexadecimal-constant hexadecimal-digit
- /// hexadecimal-prefix: one of
- /// 0x 0X
- /// binary-literal:
- /// 0b binary-digit
- /// 0B binary-digit
- /// binary-literal binary-digit
- /// integer-suffix:
- /// unsigned-suffix [long-suffix]
- /// unsigned-suffix [long-long-suffix]
- /// long-suffix [unsigned-suffix]
- /// long-long-suffix [unsigned-sufix]
- /// nonzero-digit:
- /// 1 2 3 4 5 6 7 8 9
- /// octal-digit:
- /// 0 1 2 3 4 5 6 7
- /// hexadecimal-digit:
- /// 0 1 2 3 4 5 6 7 8 9
- /// a b c d e f
- /// A B C D E F
- /// binary-digit:
- /// 0
- /// 1
- /// unsigned-suffix: one of
- /// u U
- /// long-suffix: one of
- /// l L
- /// long-long-suffix: one of
- /// ll LL
- ///
- /// floating-constant: [C99 6.4.4.2]
- /// TODO: add rules...
- ///
- NumericLiteralParser::NumericLiteralParser(StringRef TokSpelling,
- SourceLocation TokLoc,
- const SourceManager &SM,
- const LangOptions &LangOpts,
- const TargetInfo &Target,
- DiagnosticsEngine &Diags)
- : SM(SM), LangOpts(LangOpts), Diags(Diags),
- ThisTokBegin(TokSpelling.begin()), ThisTokEnd(TokSpelling.end()) {
- s = DigitsBegin = ThisTokBegin;
- saw_exponent = false;
- saw_period = false;
- saw_ud_suffix = false;
- saw_fixed_point_suffix = false;
- isLong = false;
- isUnsigned = false;
- isLongLong = false;
- isSizeT = false;
- isHalf = false;
- isFloat = false;
- isImaginary = false;
- isFloat16 = false;
- isFloat128 = false;
- MicrosoftInteger = 0;
- isFract = false;
- isAccum = false;
- hadError = false;
- isBitInt = false;
- // This routine assumes that the range begin/end matches the regex for integer
- // and FP constants (specifically, the 'pp-number' regex), and assumes that
- // the byte at "*end" is both valid and not part of the regex. Because of
- // this, it doesn't have to check for 'overscan' in various places.
- if (isPreprocessingNumberBody(*ThisTokEnd)) {
- Diags.Report(TokLoc, diag::err_lexing_numeric);
- hadError = true;
- return;
- }
- if (*s == '0') { // parse radix
- ParseNumberStartingWithZero(TokLoc);
- if (hadError)
- return;
- } else { // the first digit is non-zero
- radix = 10;
- s = SkipDigits(s);
- if (s == ThisTokEnd) {
- // Done.
- } else {
- ParseDecimalOrOctalCommon(TokLoc);
- if (hadError)
- return;
- }
- }
- SuffixBegin = s;
- checkSeparator(TokLoc, s, CSK_AfterDigits);
- // Initial scan to lookahead for fixed point suffix.
- if (LangOpts.FixedPoint) {
- for (const char *c = s; c != ThisTokEnd; ++c) {
- if (*c == 'r' || *c == 'k' || *c == 'R' || *c == 'K') {
- saw_fixed_point_suffix = true;
- break;
- }
- }
- }
- // Parse the suffix. At this point we can classify whether we have an FP or
- // integer constant.
- bool isFixedPointConstant = isFixedPointLiteral();
- bool isFPConstant = isFloatingLiteral();
- bool HasSize = false;
- // Loop over all of the characters of the suffix. If we see something bad,
- // we break out of the loop.
- for (; s != ThisTokEnd; ++s) {
- switch (*s) {
- case 'R':
- case 'r':
- if (!LangOpts.FixedPoint)
- break;
- if (isFract || isAccum) break;
- if (!(saw_period || saw_exponent)) break;
- isFract = true;
- continue;
- case 'K':
- case 'k':
- if (!LangOpts.FixedPoint)
- break;
- if (isFract || isAccum) break;
- if (!(saw_period || saw_exponent)) break;
- isAccum = true;
- continue;
- case 'h': // FP Suffix for "half".
- case 'H':
- // OpenCL Extension v1.2 s9.5 - h or H suffix for half type.
- if (!(LangOpts.Half || LangOpts.FixedPoint))
- break;
- if (isIntegerLiteral()) break; // Error for integer constant.
- if (HasSize)
- break;
- HasSize = true;
- isHalf = true;
- continue; // Success.
- case 'f': // FP Suffix for "float"
- case 'F':
- if (!isFPConstant) break; // Error for integer constant.
- if (HasSize)
- break;
- HasSize = true;
- // CUDA host and device may have different _Float16 support, therefore
- // allows f16 literals to avoid false alarm.
- // When we compile for OpenMP target offloading on NVPTX, f16 suffix
- // should also be supported.
- // ToDo: more precise check for CUDA.
- // TODO: AMDGPU might also support it in the future.
- if ((Target.hasFloat16Type() || LangOpts.CUDA ||
- (LangOpts.OpenMPIsDevice && Target.getTriple().isNVPTX())) &&
- s + 2 < ThisTokEnd && s[1] == '1' && s[2] == '6') {
- s += 2; // success, eat up 2 characters.
- isFloat16 = true;
- continue;
- }
- isFloat = true;
- continue; // Success.
- case 'q': // FP Suffix for "__float128"
- case 'Q':
- if (!isFPConstant) break; // Error for integer constant.
- if (HasSize)
- break;
- HasSize = true;
- isFloat128 = true;
- continue; // Success.
- case 'u':
- case 'U':
- if (isFPConstant) break; // Error for floating constant.
- if (isUnsigned) break; // Cannot be repeated.
- isUnsigned = true;
- continue; // Success.
- case 'l':
- case 'L':
- if (HasSize)
- break;
- HasSize = true;
- // Check for long long. The L's need to be adjacent and the same case.
- if (s[1] == s[0]) {
- assert(s + 1 < ThisTokEnd && "didn't maximally munch?");
- if (isFPConstant) break; // long long invalid for floats.
- isLongLong = true;
- ++s; // Eat both of them.
- } else {
- isLong = true;
- }
- continue; // Success.
- case 'z':
- case 'Z':
- if (isFPConstant)
- break; // Invalid for floats.
- if (HasSize)
- break;
- HasSize = true;
- isSizeT = true;
- continue;
- case 'i':
- case 'I':
- if (LangOpts.MicrosoftExt && !isFPConstant) {
- // Allow i8, i16, i32, and i64. First, look ahead and check if
- // suffixes are Microsoft integers and not the imaginary unit.
- uint8_t Bits = 0;
- size_t ToSkip = 0;
- switch (s[1]) {
- case '8': // i8 suffix
- Bits = 8;
- ToSkip = 2;
- break;
- case '1':
- if (s[2] == '6') { // i16 suffix
- Bits = 16;
- ToSkip = 3;
- }
- break;
- case '3':
- if (s[2] == '2') { // i32 suffix
- Bits = 32;
- ToSkip = 3;
- }
- break;
- case '6':
- if (s[2] == '4') { // i64 suffix
- Bits = 64;
- ToSkip = 3;
- }
- break;
- default:
- break;
- }
- if (Bits) {
- if (HasSize)
- break;
- HasSize = true;
- MicrosoftInteger = Bits;
- s += ToSkip;
- assert(s <= ThisTokEnd && "didn't maximally munch?");
- break;
- }
- }
- [[fallthrough]];
- case 'j':
- case 'J':
- if (isImaginary) break; // Cannot be repeated.
- isImaginary = true;
- continue; // Success.
- case 'w':
- case 'W':
- if (isFPConstant)
- break; // Invalid for floats.
- if (HasSize)
- break; // Invalid if we already have a size for the literal.
- // wb and WB are allowed, but a mixture of cases like Wb or wB is not. We
- // explicitly do not support the suffix in C++ as an extension because a
- // library-based UDL that resolves to a library type may be more
- // appropriate there.
- if (!LangOpts.CPlusPlus && ((s[0] == 'w' && s[1] == 'b') ||
- (s[0] == 'W' && s[1] == 'B'))) {
- isBitInt = true;
- HasSize = true;
- ++s; // Skip both characters (2nd char skipped on continue).
- continue; // Success.
- }
- }
- // If we reached here, there was an error or a ud-suffix.
- break;
- }
- // "i", "if", and "il" are user-defined suffixes in C++1y.
- if (s != ThisTokEnd || isImaginary) {
- // FIXME: Don't bother expanding UCNs if !tok.hasUCN().
- expandUCNs(UDSuffixBuf, StringRef(SuffixBegin, ThisTokEnd - SuffixBegin));
- if (isValidUDSuffix(LangOpts, UDSuffixBuf)) {
- if (!isImaginary) {
- // Any suffix pieces we might have parsed are actually part of the
- // ud-suffix.
- isLong = false;
- isUnsigned = false;
- isLongLong = false;
- isSizeT = false;
- isFloat = false;
- isFloat16 = false;
- isHalf = false;
- isImaginary = false;
- isBitInt = false;
- MicrosoftInteger = 0;
- saw_fixed_point_suffix = false;
- isFract = false;
- isAccum = false;
- }
- saw_ud_suffix = true;
- return;
- }
- if (s != ThisTokEnd) {
- // Report an error if there are any.
- Diags.Report(Lexer::AdvanceToTokenCharacter(
- TokLoc, SuffixBegin - ThisTokBegin, SM, LangOpts),
- diag::err_invalid_suffix_constant)
- << StringRef(SuffixBegin, ThisTokEnd - SuffixBegin)
- << (isFixedPointConstant ? 2 : isFPConstant);
- hadError = true;
- }
- }
- if (!hadError && saw_fixed_point_suffix) {
- assert(isFract || isAccum);
- }
- }
- /// ParseDecimalOrOctalCommon - This method is called for decimal or octal
- /// numbers. It issues an error for illegal digits, and handles floating point
- /// parsing. If it detects a floating point number, the radix is set to 10.
- void NumericLiteralParser::ParseDecimalOrOctalCommon(SourceLocation TokLoc){
- assert((radix == 8 || radix == 10) && "Unexpected radix");
- // If we have a hex digit other than 'e' (which denotes a FP exponent) then
- // the code is using an incorrect base.
- if (isHexDigit(*s) && *s != 'e' && *s != 'E' &&
- !isValidUDSuffix(LangOpts, StringRef(s, ThisTokEnd - s))) {
- Diags.Report(
- Lexer::AdvanceToTokenCharacter(TokLoc, s - ThisTokBegin, SM, LangOpts),
- diag::err_invalid_digit)
- << StringRef(s, 1) << (radix == 8 ? 1 : 0);
- hadError = true;
- return;
- }
- if (*s == '.') {
- checkSeparator(TokLoc, s, CSK_AfterDigits);
- s++;
- radix = 10;
- saw_period = true;
- checkSeparator(TokLoc, s, CSK_BeforeDigits);
- s = SkipDigits(s); // Skip suffix.
- }
- if (*s == 'e' || *s == 'E') { // exponent
- checkSeparator(TokLoc, s, CSK_AfterDigits);
- const char *Exponent = s;
- s++;
- radix = 10;
- saw_exponent = true;
- if (s != ThisTokEnd && (*s == '+' || *s == '-')) s++; // sign
- const char *first_non_digit = SkipDigits(s);
- if (containsDigits(s, first_non_digit)) {
- checkSeparator(TokLoc, s, CSK_BeforeDigits);
- s = first_non_digit;
- } else {
- if (!hadError) {
- Diags.Report(Lexer::AdvanceToTokenCharacter(
- TokLoc, Exponent - ThisTokBegin, SM, LangOpts),
- diag::err_exponent_has_no_digits);
- hadError = true;
- }
- return;
- }
- }
- }
- /// Determine whether a suffix is a valid ud-suffix. We avoid treating reserved
- /// suffixes as ud-suffixes, because the diagnostic experience is better if we
- /// treat it as an invalid suffix.
- bool NumericLiteralParser::isValidUDSuffix(const LangOptions &LangOpts,
- StringRef Suffix) {
- if (!LangOpts.CPlusPlus11 || Suffix.empty())
- return false;
- // By C++11 [lex.ext]p10, ud-suffixes starting with an '_' are always valid.
- if (Suffix[0] == '_')
- return true;
- // In C++11, there are no library suffixes.
- if (!LangOpts.CPlusPlus14)
- return false;
- // In C++14, "s", "h", "min", "ms", "us", and "ns" are used in the library.
- // Per tweaked N3660, "il", "i", and "if" are also used in the library.
- // In C++2a "d" and "y" are used in the library.
- return llvm::StringSwitch<bool>(Suffix)
- .Cases("h", "min", "s", true)
- .Cases("ms", "us", "ns", true)
- .Cases("il", "i", "if", true)
- .Cases("d", "y", LangOpts.CPlusPlus20)
- .Default(false);
- }
- void NumericLiteralParser::checkSeparator(SourceLocation TokLoc,
- const char *Pos,
- CheckSeparatorKind IsAfterDigits) {
- if (IsAfterDigits == CSK_AfterDigits) {
- if (Pos == ThisTokBegin)
- return;
- --Pos;
- } else if (Pos == ThisTokEnd)
- return;
- if (isDigitSeparator(*Pos)) {
- Diags.Report(Lexer::AdvanceToTokenCharacter(TokLoc, Pos - ThisTokBegin, SM,
- LangOpts),
- diag::err_digit_separator_not_between_digits)
- << IsAfterDigits;
- hadError = true;
- }
- }
- /// ParseNumberStartingWithZero - This method is called when the first character
- /// of the number is found to be a zero. This means it is either an octal
- /// number (like '04') or a hex number ('0x123a') a binary number ('0b1010') or
- /// a floating point number (01239.123e4). Eat the prefix, determining the
- /// radix etc.
- void NumericLiteralParser::ParseNumberStartingWithZero(SourceLocation TokLoc) {
- assert(s[0] == '0' && "Invalid method call");
- s++;
- int c1 = s[0];
- // Handle a hex number like 0x1234.
- if ((c1 == 'x' || c1 == 'X') && (isHexDigit(s[1]) || s[1] == '.')) {
- s++;
- assert(s < ThisTokEnd && "didn't maximally munch?");
- radix = 16;
- DigitsBegin = s;
- s = SkipHexDigits(s);
- bool HasSignificandDigits = containsDigits(DigitsBegin, s);
- if (s == ThisTokEnd) {
- // Done.
- } else if (*s == '.') {
- s++;
- saw_period = true;
- const char *floatDigitsBegin = s;
- s = SkipHexDigits(s);
- if (containsDigits(floatDigitsBegin, s))
- HasSignificandDigits = true;
- if (HasSignificandDigits)
- checkSeparator(TokLoc, floatDigitsBegin, CSK_BeforeDigits);
- }
- if (!HasSignificandDigits) {
- Diags.Report(Lexer::AdvanceToTokenCharacter(TokLoc, s - ThisTokBegin, SM,
- LangOpts),
- diag::err_hex_constant_requires)
- << LangOpts.CPlusPlus << 1;
- hadError = true;
- return;
- }
- // A binary exponent can appear with or with a '.'. If dotted, the
- // binary exponent is required.
- if (*s == 'p' || *s == 'P') {
- checkSeparator(TokLoc, s, CSK_AfterDigits);
- const char *Exponent = s;
- s++;
- saw_exponent = true;
- if (s != ThisTokEnd && (*s == '+' || *s == '-')) s++; // sign
- const char *first_non_digit = SkipDigits(s);
- if (!containsDigits(s, first_non_digit)) {
- if (!hadError) {
- Diags.Report(Lexer::AdvanceToTokenCharacter(
- TokLoc, Exponent - ThisTokBegin, SM, LangOpts),
- diag::err_exponent_has_no_digits);
- hadError = true;
- }
- return;
- }
- checkSeparator(TokLoc, s, CSK_BeforeDigits);
- s = first_non_digit;
- if (!LangOpts.HexFloats)
- Diags.Report(TokLoc, LangOpts.CPlusPlus
- ? diag::ext_hex_literal_invalid
- : diag::ext_hex_constant_invalid);
- else if (LangOpts.CPlusPlus17)
- Diags.Report(TokLoc, diag::warn_cxx17_hex_literal);
- } else if (saw_period) {
- Diags.Report(Lexer::AdvanceToTokenCharacter(TokLoc, s - ThisTokBegin, SM,
- LangOpts),
- diag::err_hex_constant_requires)
- << LangOpts.CPlusPlus << 0;
- hadError = true;
- }
- return;
- }
- // Handle simple binary numbers 0b01010
- if ((c1 == 'b' || c1 == 'B') && (s[1] == '0' || s[1] == '1')) {
- // 0b101010 is a C++1y / GCC extension.
- Diags.Report(TokLoc, LangOpts.CPlusPlus14
- ? diag::warn_cxx11_compat_binary_literal
- : LangOpts.CPlusPlus ? diag::ext_binary_literal_cxx14
- : diag::ext_binary_literal);
- ++s;
- assert(s < ThisTokEnd && "didn't maximally munch?");
- radix = 2;
- DigitsBegin = s;
- s = SkipBinaryDigits(s);
- if (s == ThisTokEnd) {
- // Done.
- } else if (isHexDigit(*s) &&
- !isValidUDSuffix(LangOpts, StringRef(s, ThisTokEnd - s))) {
- Diags.Report(Lexer::AdvanceToTokenCharacter(TokLoc, s - ThisTokBegin, SM,
- LangOpts),
- diag::err_invalid_digit)
- << StringRef(s, 1) << 2;
- hadError = true;
- }
- // Other suffixes will be diagnosed by the caller.
- return;
- }
- // For now, the radix is set to 8. If we discover that we have a
- // floating point constant, the radix will change to 10. Octal floating
- // point constants are not permitted (only decimal and hexadecimal).
- radix = 8;
- const char *PossibleNewDigitStart = s;
- s = SkipOctalDigits(s);
- // When the value is 0 followed by a suffix (like 0wb), we want to leave 0
- // as the start of the digits. So if skipping octal digits does not skip
- // anything, we leave the digit start where it was.
- if (s != PossibleNewDigitStart)
- DigitsBegin = PossibleNewDigitStart;
- if (s == ThisTokEnd)
- return; // Done, simple octal number like 01234
- // If we have some other non-octal digit that *is* a decimal digit, see if
- // this is part of a floating point number like 094.123 or 09e1.
- if (isDigit(*s)) {
- const char *EndDecimal = SkipDigits(s);
- if (EndDecimal[0] == '.' || EndDecimal[0] == 'e' || EndDecimal[0] == 'E') {
- s = EndDecimal;
- radix = 10;
- }
- }
- ParseDecimalOrOctalCommon(TokLoc);
- }
- static bool alwaysFitsInto64Bits(unsigned Radix, unsigned NumDigits) {
- switch (Radix) {
- case 2:
- return NumDigits <= 64;
- case 8:
- return NumDigits <= 64 / 3; // Digits are groups of 3 bits.
- case 10:
- return NumDigits <= 19; // floor(log10(2^64))
- case 16:
- return NumDigits <= 64 / 4; // Digits are groups of 4 bits.
- default:
- llvm_unreachable("impossible Radix");
- }
- }
- /// GetIntegerValue - Convert this numeric literal value to an APInt that
- /// matches Val's input width. If there is an overflow, set Val to the low bits
- /// of the result and return true. Otherwise, return false.
- bool NumericLiteralParser::GetIntegerValue(llvm::APInt &Val) {
- // Fast path: Compute a conservative bound on the maximum number of
- // bits per digit in this radix. If we can't possibly overflow a
- // uint64 based on that bound then do the simple conversion to
- // integer. This avoids the expensive overflow checking below, and
- // handles the common cases that matter (small decimal integers and
- // hex/octal values which don't overflow).
- const unsigned NumDigits = SuffixBegin - DigitsBegin;
- if (alwaysFitsInto64Bits(radix, NumDigits)) {
- uint64_t N = 0;
- for (const char *Ptr = DigitsBegin; Ptr != SuffixBegin; ++Ptr)
- if (!isDigitSeparator(*Ptr))
- N = N * radix + llvm::hexDigitValue(*Ptr);
- // This will truncate the value to Val's input width. Simply check
- // for overflow by comparing.
- Val = N;
- return Val.getZExtValue() != N;
- }
- Val = 0;
- const char *Ptr = DigitsBegin;
- llvm::APInt RadixVal(Val.getBitWidth(), radix);
- llvm::APInt CharVal(Val.getBitWidth(), 0);
- llvm::APInt OldVal = Val;
- bool OverflowOccurred = false;
- while (Ptr < SuffixBegin) {
- if (isDigitSeparator(*Ptr)) {
- ++Ptr;
- continue;
- }
- unsigned C = llvm::hexDigitValue(*Ptr++);
- // If this letter is out of bound for this radix, reject it.
- assert(C < radix && "NumericLiteralParser ctor should have rejected this");
- CharVal = C;
- // Add the digit to the value in the appropriate radix. If adding in digits
- // made the value smaller, then this overflowed.
- OldVal = Val;
- // Multiply by radix, did overflow occur on the multiply?
- Val *= RadixVal;
- OverflowOccurred |= Val.udiv(RadixVal) != OldVal;
- // Add value, did overflow occur on the value?
- // (a + b) ult b <=> overflow
- Val += CharVal;
- OverflowOccurred |= Val.ult(CharVal);
- }
- return OverflowOccurred;
- }
- llvm::APFloat::opStatus
- NumericLiteralParser::GetFloatValue(llvm::APFloat &Result) {
- using llvm::APFloat;
- unsigned n = std::min(SuffixBegin - ThisTokBegin, ThisTokEnd - ThisTokBegin);
- llvm::SmallString<16> Buffer;
- StringRef Str(ThisTokBegin, n);
- if (Str.contains('\'')) {
- Buffer.reserve(n);
- std::remove_copy_if(Str.begin(), Str.end(), std::back_inserter(Buffer),
- &isDigitSeparator);
- Str = Buffer;
- }
- auto StatusOrErr =
- Result.convertFromString(Str, APFloat::rmNearestTiesToEven);
- assert(StatusOrErr && "Invalid floating point representation");
- return !errorToBool(StatusOrErr.takeError()) ? *StatusOrErr
- : APFloat::opInvalidOp;
- }
- static inline bool IsExponentPart(char c) {
- return c == 'p' || c == 'P' || c == 'e' || c == 'E';
- }
- bool NumericLiteralParser::GetFixedPointValue(llvm::APInt &StoreVal, unsigned Scale) {
- assert(radix == 16 || radix == 10);
- // Find how many digits are needed to store the whole literal.
- unsigned NumDigits = SuffixBegin - DigitsBegin;
- if (saw_period) --NumDigits;
- // Initial scan of the exponent if it exists
- bool ExpOverflowOccurred = false;
- bool NegativeExponent = false;
- const char *ExponentBegin;
- uint64_t Exponent = 0;
- int64_t BaseShift = 0;
- if (saw_exponent) {
- const char *Ptr = DigitsBegin;
- while (!IsExponentPart(*Ptr)) ++Ptr;
- ExponentBegin = Ptr;
- ++Ptr;
- NegativeExponent = *Ptr == '-';
- if (NegativeExponent) ++Ptr;
- unsigned NumExpDigits = SuffixBegin - Ptr;
- if (alwaysFitsInto64Bits(radix, NumExpDigits)) {
- llvm::StringRef ExpStr(Ptr, NumExpDigits);
- llvm::APInt ExpInt(/*numBits=*/64, ExpStr, /*radix=*/10);
- Exponent = ExpInt.getZExtValue();
- } else {
- ExpOverflowOccurred = true;
- }
- if (NegativeExponent) BaseShift -= Exponent;
- else BaseShift += Exponent;
- }
- // Number of bits needed for decimal literal is
- // ceil(NumDigits * log2(10)) Integral part
- // + Scale Fractional part
- // + ceil(Exponent * log2(10)) Exponent
- // --------------------------------------------------
- // ceil((NumDigits + Exponent) * log2(10)) + Scale
- //
- // But for simplicity in handling integers, we can round up log2(10) to 4,
- // making:
- // 4 * (NumDigits + Exponent) + Scale
- //
- // Number of digits needed for hexadecimal literal is
- // 4 * NumDigits Integral part
- // + Scale Fractional part
- // + Exponent Exponent
- // --------------------------------------------------
- // (4 * NumDigits) + Scale + Exponent
- uint64_t NumBitsNeeded;
- if (radix == 10)
- NumBitsNeeded = 4 * (NumDigits + Exponent) + Scale;
- else
- NumBitsNeeded = 4 * NumDigits + Exponent + Scale;
- if (NumBitsNeeded > std::numeric_limits<unsigned>::max())
- ExpOverflowOccurred = true;
- llvm::APInt Val(static_cast<unsigned>(NumBitsNeeded), 0, /*isSigned=*/false);
- bool FoundDecimal = false;
- int64_t FractBaseShift = 0;
- const char *End = saw_exponent ? ExponentBegin : SuffixBegin;
- for (const char *Ptr = DigitsBegin; Ptr < End; ++Ptr) {
- if (*Ptr == '.') {
- FoundDecimal = true;
- continue;
- }
- // Normal reading of an integer
- unsigned C = llvm::hexDigitValue(*Ptr);
- assert(C < radix && "NumericLiteralParser ctor should have rejected this");
- Val *= radix;
- Val += C;
- if (FoundDecimal)
- // Keep track of how much we will need to adjust this value by from the
- // number of digits past the radix point.
- --FractBaseShift;
- }
- // For a radix of 16, we will be multiplying by 2 instead of 16.
- if (radix == 16) FractBaseShift *= 4;
- BaseShift += FractBaseShift;
- Val <<= Scale;
- uint64_t Base = (radix == 16) ? 2 : 10;
- if (BaseShift > 0) {
- for (int64_t i = 0; i < BaseShift; ++i) {
- Val *= Base;
- }
- } else if (BaseShift < 0) {
- for (int64_t i = BaseShift; i < 0 && !Val.isZero(); ++i)
- Val = Val.udiv(Base);
- }
- bool IntOverflowOccurred = false;
- auto MaxVal = llvm::APInt::getMaxValue(StoreVal.getBitWidth());
- if (Val.getBitWidth() > StoreVal.getBitWidth()) {
- IntOverflowOccurred |= Val.ugt(MaxVal.zext(Val.getBitWidth()));
- StoreVal = Val.trunc(StoreVal.getBitWidth());
- } else if (Val.getBitWidth() < StoreVal.getBitWidth()) {
- IntOverflowOccurred |= Val.zext(MaxVal.getBitWidth()).ugt(MaxVal);
- StoreVal = Val.zext(StoreVal.getBitWidth());
- } else {
- StoreVal = Val;
- }
- return IntOverflowOccurred || ExpOverflowOccurred;
- }
- /// \verbatim
- /// user-defined-character-literal: [C++11 lex.ext]
- /// character-literal ud-suffix
- /// ud-suffix:
- /// identifier
- /// character-literal: [C++11 lex.ccon]
- /// ' c-char-sequence '
- /// u' c-char-sequence '
- /// U' c-char-sequence '
- /// L' c-char-sequence '
- /// u8' c-char-sequence ' [C++1z lex.ccon]
- /// c-char-sequence:
- /// c-char
- /// c-char-sequence c-char
- /// c-char:
- /// any member of the source character set except the single-quote ',
- /// backslash \, or new-line character
- /// escape-sequence
- /// universal-character-name
- /// escape-sequence:
- /// simple-escape-sequence
- /// octal-escape-sequence
- /// hexadecimal-escape-sequence
- /// simple-escape-sequence:
- /// one of \' \" \? \\ \a \b \f \n \r \t \v
- /// octal-escape-sequence:
- /// \ octal-digit
- /// \ octal-digit octal-digit
- /// \ octal-digit octal-digit octal-digit
- /// hexadecimal-escape-sequence:
- /// \x hexadecimal-digit
- /// hexadecimal-escape-sequence hexadecimal-digit
- /// universal-character-name: [C++11 lex.charset]
- /// \u hex-quad
- /// \U hex-quad hex-quad
- /// hex-quad:
- /// hex-digit hex-digit hex-digit hex-digit
- /// \endverbatim
- ///
- CharLiteralParser::CharLiteralParser(const char *begin, const char *end,
- SourceLocation Loc, Preprocessor &PP,
- tok::TokenKind kind) {
- // At this point we know that the character matches the regex "(L|u|U)?'.*'".
- HadError = false;
- Kind = kind;
- const char *TokBegin = begin;
- // Skip over wide character determinant.
- if (Kind != tok::char_constant)
- ++begin;
- if (Kind == tok::utf8_char_constant)
- ++begin;
- // Skip over the entry quote.
- if (begin[0] != '\'') {
- PP.Diag(Loc, diag::err_lexing_char);
- HadError = true;
- return;
- }
- ++begin;
- // Remove an optional ud-suffix.
- if (end[-1] != '\'') {
- const char *UDSuffixEnd = end;
- do {
- --end;
- } while (end[-1] != '\'');
- // FIXME: Don't bother with this if !tok.hasUCN().
- expandUCNs(UDSuffixBuf, StringRef(end, UDSuffixEnd - end));
- UDSuffixOffset = end - TokBegin;
- }
- // Trim the ending quote.
- assert(end != begin && "Invalid token lexed");
- --end;
- // FIXME: The "Value" is an uint64_t so we can handle char literals of
- // up to 64-bits.
- // FIXME: This extensively assumes that 'char' is 8-bits.
- assert(PP.getTargetInfo().getCharWidth() == 8 &&
- "Assumes char is 8 bits");
- assert(PP.getTargetInfo().getIntWidth() <= 64 &&
- (PP.getTargetInfo().getIntWidth() & 7) == 0 &&
- "Assumes sizeof(int) on target is <= 64 and a multiple of char");
- assert(PP.getTargetInfo().getWCharWidth() <= 64 &&
- "Assumes sizeof(wchar) on target is <= 64");
- SmallVector<uint32_t, 4> codepoint_buffer;
- codepoint_buffer.resize(end - begin);
- uint32_t *buffer_begin = &codepoint_buffer.front();
- uint32_t *buffer_end = buffer_begin + codepoint_buffer.size();
- // Unicode escapes representing characters that cannot be correctly
- // represented in a single code unit are disallowed in character literals
- // by this implementation.
- uint32_t largest_character_for_kind;
- if (tok::wide_char_constant == Kind) {
- largest_character_for_kind =
- 0xFFFFFFFFu >> (32-PP.getTargetInfo().getWCharWidth());
- } else if (tok::utf8_char_constant == Kind) {
- largest_character_for_kind = 0x7F;
- } else if (tok::utf16_char_constant == Kind) {
- largest_character_for_kind = 0xFFFF;
- } else if (tok::utf32_char_constant == Kind) {
- largest_character_for_kind = 0x10FFFF;
- } else {
- largest_character_for_kind = 0x7Fu;
- }
- while (begin != end) {
- // Is this a span of non-escape characters?
- if (begin[0] != '\\') {
- char const *start = begin;
- do {
- ++begin;
- } while (begin != end && *begin != '\\');
- char const *tmp_in_start = start;
- uint32_t *tmp_out_start = buffer_begin;
- llvm::ConversionResult res =
- llvm::ConvertUTF8toUTF32(reinterpret_cast<llvm::UTF8 const **>(&start),
- reinterpret_cast<llvm::UTF8 const *>(begin),
- &buffer_begin, buffer_end, llvm::strictConversion);
- if (res != llvm::conversionOK) {
- // If we see bad encoding for unprefixed character literals, warn and
- // simply copy the byte values, for compatibility with gcc and
- // older versions of clang.
- bool NoErrorOnBadEncoding = isOrdinary();
- unsigned Msg = diag::err_bad_character_encoding;
- if (NoErrorOnBadEncoding)
- Msg = diag::warn_bad_character_encoding;
- PP.Diag(Loc, Msg);
- if (NoErrorOnBadEncoding) {
- start = tmp_in_start;
- buffer_begin = tmp_out_start;
- for (; start != begin; ++start, ++buffer_begin)
- *buffer_begin = static_cast<uint8_t>(*start);
- } else {
- HadError = true;
- }
- } else {
- for (; tmp_out_start < buffer_begin; ++tmp_out_start) {
- if (*tmp_out_start > largest_character_for_kind) {
- HadError = true;
- PP.Diag(Loc, diag::err_character_too_large);
- }
- }
- }
- continue;
- }
- // Is this a Universal Character Name escape?
- if (begin[1] == 'u' || begin[1] == 'U' || begin[1] == 'N') {
- unsigned short UcnLen = 0;
- if (!ProcessUCNEscape(TokBegin, begin, end, *buffer_begin, UcnLen,
- FullSourceLoc(Loc, PP.getSourceManager()),
- &PP.getDiagnostics(), PP.getLangOpts(), true)) {
- HadError = true;
- } else if (*buffer_begin > largest_character_for_kind) {
- HadError = true;
- PP.Diag(Loc, diag::err_character_too_large);
- }
- ++buffer_begin;
- continue;
- }
- unsigned CharWidth = getCharWidth(Kind, PP.getTargetInfo());
- uint64_t result =
- ProcessCharEscape(TokBegin, begin, end, HadError,
- FullSourceLoc(Loc,PP.getSourceManager()),
- CharWidth, &PP.getDiagnostics(), PP.getLangOpts());
- *buffer_begin++ = result;
- }
- unsigned NumCharsSoFar = buffer_begin - &codepoint_buffer.front();
- if (NumCharsSoFar > 1) {
- if (isOrdinary() && NumCharsSoFar == 4)
- PP.Diag(Loc, diag::warn_four_char_character_literal);
- else if (isOrdinary())
- PP.Diag(Loc, diag::warn_multichar_character_literal);
- else {
- PP.Diag(Loc, diag::err_multichar_character_literal) << (isWide() ? 0 : 1);
- HadError = true;
- }
- IsMultiChar = true;
- } else {
- IsMultiChar = false;
- }
- llvm::APInt LitVal(PP.getTargetInfo().getIntWidth(), 0);
- // Narrow character literals act as though their value is concatenated
- // in this implementation, but warn on overflow.
- bool multi_char_too_long = false;
- if (isOrdinary() && isMultiChar()) {
- LitVal = 0;
- for (size_t i = 0; i < NumCharsSoFar; ++i) {
- // check for enough leading zeros to shift into
- multi_char_too_long |= (LitVal.countLeadingZeros() < 8);
- LitVal <<= 8;
- LitVal = LitVal + (codepoint_buffer[i] & 0xFF);
- }
- } else if (NumCharsSoFar > 0) {
- // otherwise just take the last character
- LitVal = buffer_begin[-1];
- }
- if (!HadError && multi_char_too_long) {
- PP.Diag(Loc, diag::warn_char_constant_too_large);
- }
- // Transfer the value from APInt to uint64_t
- Value = LitVal.getZExtValue();
- // If this is a single narrow character, sign extend it (e.g. '\xFF' is "-1")
- // if 'char' is signed for this target (C99 6.4.4.4p10). Note that multiple
- // character constants are not sign extended in the this implementation:
- // '\xFF\xFF' = 65536 and '\x0\xFF' = 255, which matches GCC.
- if (isOrdinary() && NumCharsSoFar == 1 && (Value & 128) &&
- PP.getLangOpts().CharIsSigned)
- Value = (signed char)Value;
- }
- /// \verbatim
- /// string-literal: [C++0x lex.string]
- /// encoding-prefix " [s-char-sequence] "
- /// encoding-prefix R raw-string
- /// encoding-prefix:
- /// u8
- /// u
- /// U
- /// L
- /// s-char-sequence:
- /// s-char
- /// s-char-sequence s-char
- /// s-char:
- /// any member of the source character set except the double-quote ",
- /// backslash \, or new-line character
- /// escape-sequence
- /// universal-character-name
- /// raw-string:
- /// " d-char-sequence ( r-char-sequence ) d-char-sequence "
- /// r-char-sequence:
- /// r-char
- /// r-char-sequence r-char
- /// r-char:
- /// any member of the source character set, except a right parenthesis )
- /// followed by the initial d-char-sequence (which may be empty)
- /// followed by a double quote ".
- /// d-char-sequence:
- /// d-char
- /// d-char-sequence d-char
- /// d-char:
- /// any member of the basic source character set except:
- /// space, the left parenthesis (, the right parenthesis ),
- /// the backslash \, and the control characters representing horizontal
- /// tab, vertical tab, form feed, and newline.
- /// escape-sequence: [C++0x lex.ccon]
- /// simple-escape-sequence
- /// octal-escape-sequence
- /// hexadecimal-escape-sequence
- /// simple-escape-sequence:
- /// one of \' \" \? \\ \a \b \f \n \r \t \v
- /// octal-escape-sequence:
- /// \ octal-digit
- /// \ octal-digit octal-digit
- /// \ octal-digit octal-digit octal-digit
- /// hexadecimal-escape-sequence:
- /// \x hexadecimal-digit
- /// hexadecimal-escape-sequence hexadecimal-digit
- /// universal-character-name:
- /// \u hex-quad
- /// \U hex-quad hex-quad
- /// hex-quad:
- /// hex-digit hex-digit hex-digit hex-digit
- /// \endverbatim
- ///
- StringLiteralParser::
- StringLiteralParser(ArrayRef<Token> StringToks,
- Preprocessor &PP)
- : SM(PP.getSourceManager()), Features(PP.getLangOpts()),
- Target(PP.getTargetInfo()), Diags(&PP.getDiagnostics()),
- MaxTokenLength(0), SizeBound(0), CharByteWidth(0), Kind(tok::unknown),
- ResultPtr(ResultBuf.data()), hadError(false), Pascal(false) {
- init(StringToks);
- }
- void StringLiteralParser::init(ArrayRef<Token> StringToks){
- // The literal token may have come from an invalid source location (e.g. due
- // to a PCH error), in which case the token length will be 0.
- if (StringToks.empty() || StringToks[0].getLength() < 2)
- return DiagnoseLexingError(SourceLocation());
- // Scan all of the string portions, remember the max individual token length,
- // computing a bound on the concatenated string length, and see whether any
- // piece is a wide-string. If any of the string portions is a wide-string
- // literal, the result is a wide-string literal [C99 6.4.5p4].
- assert(!StringToks.empty() && "expected at least one token");
- MaxTokenLength = StringToks[0].getLength();
- assert(StringToks[0].getLength() >= 2 && "literal token is invalid!");
- SizeBound = StringToks[0].getLength()-2; // -2 for "".
- Kind = StringToks[0].getKind();
- hadError = false;
- // Implement Translation Phase #6: concatenation of string literals
- /// (C99 5.1.1.2p1). The common case is only one string fragment.
- for (unsigned i = 1; i != StringToks.size(); ++i) {
- if (StringToks[i].getLength() < 2)
- return DiagnoseLexingError(StringToks[i].getLocation());
- // The string could be shorter than this if it needs cleaning, but this is a
- // reasonable bound, which is all we need.
- assert(StringToks[i].getLength() >= 2 && "literal token is invalid!");
- SizeBound += StringToks[i].getLength()-2; // -2 for "".
- // Remember maximum string piece length.
- if (StringToks[i].getLength() > MaxTokenLength)
- MaxTokenLength = StringToks[i].getLength();
- // Remember if we see any wide or utf-8/16/32 strings.
- // Also check for illegal concatenations.
- if (StringToks[i].isNot(Kind) && StringToks[i].isNot(tok::string_literal)) {
- if (isOrdinary()) {
- Kind = StringToks[i].getKind();
- } else {
- if (Diags)
- Diags->Report(StringToks[i].getLocation(),
- diag::err_unsupported_string_concat);
- hadError = true;
- }
- }
- }
- // Include space for the null terminator.
- ++SizeBound;
- // TODO: K&R warning: "traditional C rejects string constant concatenation"
- // Get the width in bytes of char/wchar_t/char16_t/char32_t
- CharByteWidth = getCharWidth(Kind, Target);
- assert((CharByteWidth & 7) == 0 && "Assumes character size is byte multiple");
- CharByteWidth /= 8;
- // The output buffer size needs to be large enough to hold wide characters.
- // This is a worst-case assumption which basically corresponds to L"" "long".
- SizeBound *= CharByteWidth;
- // Size the temporary buffer to hold the result string data.
- ResultBuf.resize(SizeBound);
- // Likewise, but for each string piece.
- SmallString<512> TokenBuf;
- TokenBuf.resize(MaxTokenLength);
- // Loop over all the strings, getting their spelling, and expanding them to
- // wide strings as appropriate.
- ResultPtr = &ResultBuf[0]; // Next byte to fill in.
- Pascal = false;
- SourceLocation UDSuffixTokLoc;
- for (unsigned i = 0, e = StringToks.size(); i != e; ++i) {
- const char *ThisTokBuf = &TokenBuf[0];
- // Get the spelling of the token, which eliminates trigraphs, etc. We know
- // that ThisTokBuf points to a buffer that is big enough for the whole token
- // and 'spelled' tokens can only shrink.
- bool StringInvalid = false;
- unsigned ThisTokLen =
- Lexer::getSpelling(StringToks[i], ThisTokBuf, SM, Features,
- &StringInvalid);
- if (StringInvalid)
- return DiagnoseLexingError(StringToks[i].getLocation());
- const char *ThisTokBegin = ThisTokBuf;
- const char *ThisTokEnd = ThisTokBuf+ThisTokLen;
- // Remove an optional ud-suffix.
- if (ThisTokEnd[-1] != '"') {
- const char *UDSuffixEnd = ThisTokEnd;
- do {
- --ThisTokEnd;
- } while (ThisTokEnd[-1] != '"');
- StringRef UDSuffix(ThisTokEnd, UDSuffixEnd - ThisTokEnd);
- if (UDSuffixBuf.empty()) {
- if (StringToks[i].hasUCN())
- expandUCNs(UDSuffixBuf, UDSuffix);
- else
- UDSuffixBuf.assign(UDSuffix);
- UDSuffixToken = i;
- UDSuffixOffset = ThisTokEnd - ThisTokBuf;
- UDSuffixTokLoc = StringToks[i].getLocation();
- } else {
- SmallString<32> ExpandedUDSuffix;
- if (StringToks[i].hasUCN()) {
- expandUCNs(ExpandedUDSuffix, UDSuffix);
- UDSuffix = ExpandedUDSuffix;
- }
- // C++11 [lex.ext]p8: At the end of phase 6, if a string literal is the
- // result of a concatenation involving at least one user-defined-string-
- // literal, all the participating user-defined-string-literals shall
- // have the same ud-suffix.
- if (UDSuffixBuf != UDSuffix) {
- if (Diags) {
- SourceLocation TokLoc = StringToks[i].getLocation();
- Diags->Report(TokLoc, diag::err_string_concat_mixed_suffix)
- << UDSuffixBuf << UDSuffix
- << SourceRange(UDSuffixTokLoc, UDSuffixTokLoc)
- << SourceRange(TokLoc, TokLoc);
- }
- hadError = true;
- }
- }
- }
- // Strip the end quote.
- --ThisTokEnd;
- // TODO: Input character set mapping support.
- // Skip marker for wide or unicode strings.
- if (ThisTokBuf[0] == 'L' || ThisTokBuf[0] == 'u' || ThisTokBuf[0] == 'U') {
- ++ThisTokBuf;
- // Skip 8 of u8 marker for utf8 strings.
- if (ThisTokBuf[0] == '8')
- ++ThisTokBuf;
- }
- // Check for raw string
- if (ThisTokBuf[0] == 'R') {
- if (ThisTokBuf[1] != '"') {
- // The file may have come from PCH and then changed after loading the
- // PCH; Fail gracefully.
- return DiagnoseLexingError(StringToks[i].getLocation());
- }
- ThisTokBuf += 2; // skip R"
- // C++11 [lex.string]p2: A `d-char-sequence` shall consist of at most 16
- // characters.
- constexpr unsigned MaxRawStrDelimLen = 16;
- const char *Prefix = ThisTokBuf;
- while (static_cast<unsigned>(ThisTokBuf - Prefix) < MaxRawStrDelimLen &&
- ThisTokBuf[0] != '(')
- ++ThisTokBuf;
- if (ThisTokBuf[0] != '(')
- return DiagnoseLexingError(StringToks[i].getLocation());
- ++ThisTokBuf; // skip '('
- // Remove same number of characters from the end
- ThisTokEnd -= ThisTokBuf - Prefix;
- if (ThisTokEnd < ThisTokBuf)
- return DiagnoseLexingError(StringToks[i].getLocation());
- // C++14 [lex.string]p4: A source-file new-line in a raw string literal
- // results in a new-line in the resulting execution string-literal.
- StringRef RemainingTokenSpan(ThisTokBuf, ThisTokEnd - ThisTokBuf);
- while (!RemainingTokenSpan.empty()) {
- // Split the string literal on \r\n boundaries.
- size_t CRLFPos = RemainingTokenSpan.find("\r\n");
- StringRef BeforeCRLF = RemainingTokenSpan.substr(0, CRLFPos);
- StringRef AfterCRLF = RemainingTokenSpan.substr(CRLFPos);
- // Copy everything before the \r\n sequence into the string literal.
- if (CopyStringFragment(StringToks[i], ThisTokBegin, BeforeCRLF))
- hadError = true;
- // Point into the \n inside the \r\n sequence and operate on the
- // remaining portion of the literal.
- RemainingTokenSpan = AfterCRLF.substr(1);
- }
- } else {
- if (ThisTokBuf[0] != '"') {
- // The file may have come from PCH and then changed after loading the
- // PCH; Fail gracefully.
- return DiagnoseLexingError(StringToks[i].getLocation());
- }
- ++ThisTokBuf; // skip "
- // Check if this is a pascal string
- if (Features.PascalStrings && ThisTokBuf + 1 != ThisTokEnd &&
- ThisTokBuf[0] == '\\' && ThisTokBuf[1] == 'p') {
- // If the \p sequence is found in the first token, we have a pascal string
- // Otherwise, if we already have a pascal string, ignore the first \p
- if (i == 0) {
- ++ThisTokBuf;
- Pascal = true;
- } else if (Pascal)
- ThisTokBuf += 2;
- }
- while (ThisTokBuf != ThisTokEnd) {
- // Is this a span of non-escape characters?
- if (ThisTokBuf[0] != '\\') {
- const char *InStart = ThisTokBuf;
- do {
- ++ThisTokBuf;
- } while (ThisTokBuf != ThisTokEnd && ThisTokBuf[0] != '\\');
- // Copy the character span over.
- if (CopyStringFragment(StringToks[i], ThisTokBegin,
- StringRef(InStart, ThisTokBuf - InStart)))
- hadError = true;
- continue;
- }
- // Is this a Universal Character Name escape?
- if (ThisTokBuf[1] == 'u' || ThisTokBuf[1] == 'U' ||
- ThisTokBuf[1] == 'N') {
- EncodeUCNEscape(ThisTokBegin, ThisTokBuf, ThisTokEnd,
- ResultPtr, hadError,
- FullSourceLoc(StringToks[i].getLocation(), SM),
- CharByteWidth, Diags, Features);
- continue;
- }
- // Otherwise, this is a non-UCN escape character. Process it.
- unsigned ResultChar =
- ProcessCharEscape(ThisTokBegin, ThisTokBuf, ThisTokEnd, hadError,
- FullSourceLoc(StringToks[i].getLocation(), SM),
- CharByteWidth*8, Diags, Features);
- if (CharByteWidth == 4) {
- // FIXME: Make the type of the result buffer correct instead of
- // using reinterpret_cast.
- llvm::UTF32 *ResultWidePtr = reinterpret_cast<llvm::UTF32*>(ResultPtr);
- *ResultWidePtr = ResultChar;
- ResultPtr += 4;
- } else if (CharByteWidth == 2) {
- // FIXME: Make the type of the result buffer correct instead of
- // using reinterpret_cast.
- llvm::UTF16 *ResultWidePtr = reinterpret_cast<llvm::UTF16*>(ResultPtr);
- *ResultWidePtr = ResultChar & 0xFFFF;
- ResultPtr += 2;
- } else {
- assert(CharByteWidth == 1 && "Unexpected char width");
- *ResultPtr++ = ResultChar & 0xFF;
- }
- }
- }
- }
- if (Pascal) {
- if (CharByteWidth == 4) {
- // FIXME: Make the type of the result buffer correct instead of
- // using reinterpret_cast.
- llvm::UTF32 *ResultWidePtr = reinterpret_cast<llvm::UTF32*>(ResultBuf.data());
- ResultWidePtr[0] = GetNumStringChars() - 1;
- } else if (CharByteWidth == 2) {
- // FIXME: Make the type of the result buffer correct instead of
- // using reinterpret_cast.
- llvm::UTF16 *ResultWidePtr = reinterpret_cast<llvm::UTF16*>(ResultBuf.data());
- ResultWidePtr[0] = GetNumStringChars() - 1;
- } else {
- assert(CharByteWidth == 1 && "Unexpected char width");
- ResultBuf[0] = GetNumStringChars() - 1;
- }
- // Verify that pascal strings aren't too large.
- if (GetStringLength() > 256) {
- if (Diags)
- Diags->Report(StringToks.front().getLocation(),
- diag::err_pascal_string_too_long)
- << SourceRange(StringToks.front().getLocation(),
- StringToks.back().getLocation());
- hadError = true;
- return;
- }
- } else if (Diags) {
- // Complain if this string literal has too many characters.
- unsigned MaxChars = Features.CPlusPlus? 65536 : Features.C99 ? 4095 : 509;
- if (GetNumStringChars() > MaxChars)
- Diags->Report(StringToks.front().getLocation(),
- diag::ext_string_too_long)
- << GetNumStringChars() << MaxChars
- << (Features.CPlusPlus ? 2 : Features.C99 ? 1 : 0)
- << SourceRange(StringToks.front().getLocation(),
- StringToks.back().getLocation());
- }
- }
- static const char *resyncUTF8(const char *Err, const char *End) {
- if (Err == End)
- return End;
- End = Err + std::min<unsigned>(llvm::getNumBytesForUTF8(*Err), End-Err);
- while (++Err != End && (*Err & 0xC0) == 0x80)
- ;
- return Err;
- }
- /// This function copies from Fragment, which is a sequence of bytes
- /// within Tok's contents (which begin at TokBegin) into ResultPtr.
- /// Performs widening for multi-byte characters.
- bool StringLiteralParser::CopyStringFragment(const Token &Tok,
- const char *TokBegin,
- StringRef Fragment) {
- const llvm::UTF8 *ErrorPtrTmp;
- if (ConvertUTF8toWide(CharByteWidth, Fragment, ResultPtr, ErrorPtrTmp))
- return false;
- // If we see bad encoding for unprefixed string literals, warn and
- // simply copy the byte values, for compatibility with gcc and older
- // versions of clang.
- bool NoErrorOnBadEncoding = isOrdinary();
- if (NoErrorOnBadEncoding) {
- memcpy(ResultPtr, Fragment.data(), Fragment.size());
- ResultPtr += Fragment.size();
- }
- if (Diags) {
- const char *ErrorPtr = reinterpret_cast<const char *>(ErrorPtrTmp);
- FullSourceLoc SourceLoc(Tok.getLocation(), SM);
- const DiagnosticBuilder &Builder =
- Diag(Diags, Features, SourceLoc, TokBegin,
- ErrorPtr, resyncUTF8(ErrorPtr, Fragment.end()),
- NoErrorOnBadEncoding ? diag::warn_bad_string_encoding
- : diag::err_bad_string_encoding);
- const char *NextStart = resyncUTF8(ErrorPtr, Fragment.end());
- StringRef NextFragment(NextStart, Fragment.end()-NextStart);
- // Decode into a dummy buffer.
- SmallString<512> Dummy;
- Dummy.reserve(Fragment.size() * CharByteWidth);
- char *Ptr = Dummy.data();
- while (!ConvertUTF8toWide(CharByteWidth, NextFragment, Ptr, ErrorPtrTmp)) {
- const char *ErrorPtr = reinterpret_cast<const char *>(ErrorPtrTmp);
- NextStart = resyncUTF8(ErrorPtr, Fragment.end());
- Builder << MakeCharSourceRange(Features, SourceLoc, TokBegin,
- ErrorPtr, NextStart);
- NextFragment = StringRef(NextStart, Fragment.end()-NextStart);
- }
- }
- return !NoErrorOnBadEncoding;
- }
- void StringLiteralParser::DiagnoseLexingError(SourceLocation Loc) {
- hadError = true;
- if (Diags)
- Diags->Report(Loc, diag::err_lexing_string);
- }
- /// 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.
- unsigned StringLiteralParser::getOffsetOfStringByte(const Token &Tok,
- unsigned ByteNo) const {
- // Get the spelling of the token.
- SmallString<32> SpellingBuffer;
- SpellingBuffer.resize(Tok.getLength());
- bool StringInvalid = false;
- const char *SpellingPtr = &SpellingBuffer[0];
- unsigned TokLen = Lexer::getSpelling(Tok, SpellingPtr, SM, Features,
- &StringInvalid);
- if (StringInvalid)
- return 0;
- const char *SpellingStart = SpellingPtr;
- const char *SpellingEnd = SpellingPtr+TokLen;
- // Handle UTF-8 strings just like narrow strings.
- if (SpellingPtr[0] == 'u' && SpellingPtr[1] == '8')
- SpellingPtr += 2;
- assert(SpellingPtr[0] != 'L' && SpellingPtr[0] != 'u' &&
- SpellingPtr[0] != 'U' && "Doesn't handle wide or utf strings yet");
- // For raw string literals, this is easy.
- if (SpellingPtr[0] == 'R') {
- assert(SpellingPtr[1] == '"' && "Should be a raw string literal!");
- // Skip 'R"'.
- SpellingPtr += 2;
- while (*SpellingPtr != '(') {
- ++SpellingPtr;
- assert(SpellingPtr < SpellingEnd && "Missing ( for raw string literal");
- }
- // Skip '('.
- ++SpellingPtr;
- return SpellingPtr - SpellingStart + ByteNo;
- }
- // Skip over the leading quote
- assert(SpellingPtr[0] == '"' && "Should be a string literal!");
- ++SpellingPtr;
- // Skip over bytes until we find the offset we're looking for.
- while (ByteNo) {
- assert(SpellingPtr < SpellingEnd && "Didn't find byte offset!");
- // Step over non-escapes simply.
- if (*SpellingPtr != '\\') {
- ++SpellingPtr;
- --ByteNo;
- continue;
- }
- // Otherwise, this is an escape character. Advance over it.
- bool HadError = false;
- if (SpellingPtr[1] == 'u' || SpellingPtr[1] == 'U' ||
- SpellingPtr[1] == 'N') {
- const char *EscapePtr = SpellingPtr;
- unsigned Len = MeasureUCNEscape(SpellingStart, SpellingPtr, SpellingEnd,
- 1, Features, HadError);
- if (Len > ByteNo) {
- // ByteNo is somewhere within the escape sequence.
- SpellingPtr = EscapePtr;
- break;
- }
- ByteNo -= Len;
- } else {
- ProcessCharEscape(SpellingStart, SpellingPtr, SpellingEnd, HadError,
- FullSourceLoc(Tok.getLocation(), SM),
- CharByteWidth*8, Diags, Features);
- --ByteNo;
- }
- assert(!HadError && "This method isn't valid on erroneous strings");
- }
- return SpellingPtr-SpellingStart;
- }
- /// Determine whether a suffix is a valid ud-suffix. We avoid treating reserved
- /// suffixes as ud-suffixes, because the diagnostic experience is better if we
- /// treat it as an invalid suffix.
- bool StringLiteralParser::isValidUDSuffix(const LangOptions &LangOpts,
- StringRef Suffix) {
- return NumericLiteralParser::isValidUDSuffix(LangOpts, Suffix) ||
- Suffix == "sv";
- }
|