freebsd-dev/lib/AST/CommentLexer.cpp

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#include "clang/AST/CommentLexer.h"
#include "clang/AST/CommentCommandTraits.h"
#include "clang/Basic/ConvertUTF.h"
#include "llvm/ADT/StringSwitch.h"
#include "llvm/Support/ErrorHandling.h"
namespace clang {
namespace comments {
void Token::dump(const Lexer &L, const SourceManager &SM) const {
llvm::errs() << "comments::Token Kind=" << Kind << " ";
Loc.dump(SM);
llvm::errs() << " " << Length << " \"" << L.getSpelling(*this, SM) << "\"\n";
}
namespace {
bool isHTMLNamedCharacterReferenceCharacter(char C) {
return (C >= 'a' && C <= 'z') ||
(C >= 'A' && C <= 'Z');
}
bool isHTMLDecimalCharacterReferenceCharacter(char C) {
return C >= '0' && C <= '9';
}
bool isHTMLHexCharacterReferenceCharacter(char C) {
return (C >= '0' && C <= '9') ||
(C >= 'a' && C <= 'f') ||
(C >= 'A' && C <= 'F');
}
} // unnamed namespace
StringRef Lexer::resolveHTMLNamedCharacterReference(StringRef Name) const {
return llvm::StringSwitch<StringRef>(Name)
.Case("amp", "&")
.Case("lt", "<")
.Case("gt", ">")
.Case("quot", "\"")
.Case("apos", "\'")
.Default("");
}
StringRef Lexer::resolveHTMLDecimalCharacterReference(StringRef Name) const {
unsigned CodePoint = 0;
for (unsigned i = 0, e = Name.size(); i != e; ++i) {
assert(isHTMLDecimalCharacterReferenceCharacter(Name[i]));
CodePoint *= 10;
CodePoint += Name[i] - '0';
}
char *Resolved = Allocator.Allocate<char>(UNI_MAX_UTF8_BYTES_PER_CODE_POINT);
char *ResolvedPtr = Resolved;
if (ConvertCodePointToUTF8(CodePoint, ResolvedPtr))
return StringRef(Resolved, ResolvedPtr - Resolved);
else
return StringRef();
}
StringRef Lexer::resolveHTMLHexCharacterReference(StringRef Name) const {
unsigned CodePoint = 0;
for (unsigned i = 0, e = Name.size(); i != e; ++i) {
CodePoint *= 16;
const char C = Name[i];
assert(isHTMLHexCharacterReferenceCharacter(C));
if (C >= '0' && C <= '9')
CodePoint += Name[i] - '0';
else if (C >= 'a' && C <= 'f')
CodePoint += Name[i] - 'a' + 10;
else
CodePoint += Name[i] - 'A' + 10;
}
char *Resolved = Allocator.Allocate<char>(UNI_MAX_UTF8_BYTES_PER_CODE_POINT);
char *ResolvedPtr = Resolved;
if (ConvertCodePointToUTF8(CodePoint, ResolvedPtr))
return StringRef(Resolved, ResolvedPtr - Resolved);
else
return StringRef();
}
void Lexer::skipLineStartingDecorations() {
// This function should be called only for C comments
assert(CommentState == LCS_InsideCComment);
if (BufferPtr == CommentEnd)
return;
switch (*BufferPtr) {
case ' ':
case '\t':
case '\f':
case '\v': {
const char *NewBufferPtr = BufferPtr;
NewBufferPtr++;
if (NewBufferPtr == CommentEnd)
return;
char C = *NewBufferPtr;
while (C == ' ' || C == '\t' || C == '\f' || C == '\v') {
NewBufferPtr++;
if (NewBufferPtr == CommentEnd)
return;
C = *NewBufferPtr;
}
if (C == '*')
BufferPtr = NewBufferPtr + 1;
break;
}
case '*':
BufferPtr++;
break;
}
}
namespace {
/// Returns pointer to the first newline character in the string.
const char *findNewline(const char *BufferPtr, const char *BufferEnd) {
for ( ; BufferPtr != BufferEnd; ++BufferPtr) {
const char C = *BufferPtr;
if (C == '\n' || C == '\r')
return BufferPtr;
}
return BufferEnd;
}
const char *skipNewline(const char *BufferPtr, const char *BufferEnd) {
if (BufferPtr == BufferEnd)
return BufferPtr;
if (*BufferPtr == '\n')
BufferPtr++;
else {
assert(*BufferPtr == '\r');
BufferPtr++;
if (BufferPtr != BufferEnd && *BufferPtr == '\n')
BufferPtr++;
}
return BufferPtr;
}
const char *skipNamedCharacterReference(const char *BufferPtr,
const char *BufferEnd) {
for ( ; BufferPtr != BufferEnd; ++BufferPtr) {
if (!isHTMLNamedCharacterReferenceCharacter(*BufferPtr))
return BufferPtr;
}
return BufferEnd;
}
const char *skipDecimalCharacterReference(const char *BufferPtr,
const char *BufferEnd) {
for ( ; BufferPtr != BufferEnd; ++BufferPtr) {
if (!isHTMLDecimalCharacterReferenceCharacter(*BufferPtr))
return BufferPtr;
}
return BufferEnd;
}
const char *skipHexCharacterReference(const char *BufferPtr,
const char *BufferEnd) {
for ( ; BufferPtr != BufferEnd; ++BufferPtr) {
if (!isHTMLHexCharacterReferenceCharacter(*BufferPtr))
return BufferPtr;
}
return BufferEnd;
}
bool isHTMLIdentifierStartingCharacter(char C) {
return (C >= 'a' && C <= 'z') ||
(C >= 'A' && C <= 'Z');
}
bool isHTMLIdentifierCharacter(char C) {
return (C >= 'a' && C <= 'z') ||
(C >= 'A' && C <= 'Z') ||
(C >= '0' && C <= '9');
}
const char *skipHTMLIdentifier(const char *BufferPtr, const char *BufferEnd) {
for ( ; BufferPtr != BufferEnd; ++BufferPtr) {
if (!isHTMLIdentifierCharacter(*BufferPtr))
return BufferPtr;
}
return BufferEnd;
}
/// Skip HTML string quoted in single or double quotes. Escaping quotes inside
/// string allowed.
///
/// Returns pointer to closing quote.
const char *skipHTMLQuotedString(const char *BufferPtr, const char *BufferEnd)
{
const char Quote = *BufferPtr;
assert(Quote == '\"' || Quote == '\'');
BufferPtr++;
for ( ; BufferPtr != BufferEnd; ++BufferPtr) {
const char C = *BufferPtr;
if (C == Quote && BufferPtr[-1] != '\\')
return BufferPtr;
}
return BufferEnd;
}
bool isHorizontalWhitespace(char C) {
return C == ' ' || C == '\t' || C == '\f' || C == '\v';
}
bool isWhitespace(char C) {
return C == ' ' || C == '\n' || C == '\r' ||
C == '\t' || C == '\f' || C == '\v';
}
const char *skipWhitespace(const char *BufferPtr, const char *BufferEnd) {
for ( ; BufferPtr != BufferEnd; ++BufferPtr) {
if (!isWhitespace(*BufferPtr))
return BufferPtr;
}
return BufferEnd;
}
bool isWhitespace(const char *BufferPtr, const char *BufferEnd) {
return skipWhitespace(BufferPtr, BufferEnd) == BufferEnd;
}
bool isCommandNameCharacter(char C) {
return (C >= 'a' && C <= 'z') ||
(C >= 'A' && C <= 'Z') ||
(C >= '0' && C <= '9');
}
const char *skipCommandName(const char *BufferPtr, const char *BufferEnd) {
for ( ; BufferPtr != BufferEnd; ++BufferPtr) {
if (!isCommandNameCharacter(*BufferPtr))
return BufferPtr;
}
return BufferEnd;
}
/// Return the one past end pointer for BCPL comments.
/// Handles newlines escaped with backslash or trigraph for backslahs.
const char *findBCPLCommentEnd(const char *BufferPtr, const char *BufferEnd) {
const char *CurPtr = BufferPtr;
while (CurPtr != BufferEnd) {
char C = *CurPtr;
while (C != '\n' && C != '\r') {
CurPtr++;
if (CurPtr == BufferEnd)
return BufferEnd;
C = *CurPtr;
}
// We found a newline, check if it is escaped.
const char *EscapePtr = CurPtr - 1;
while(isHorizontalWhitespace(*EscapePtr))
EscapePtr--;
if (*EscapePtr == '\\' ||
(EscapePtr - 2 >= BufferPtr && EscapePtr[0] == '/' &&
EscapePtr[-1] == '?' && EscapePtr[-2] == '?')) {
// We found an escaped newline.
CurPtr = skipNewline(CurPtr, BufferEnd);
} else
return CurPtr; // Not an escaped newline.
}
return BufferEnd;
}
/// Return the one past end pointer for C comments.
/// Very dumb, does not handle escaped newlines or trigraphs.
const char *findCCommentEnd(const char *BufferPtr, const char *BufferEnd) {
for ( ; BufferPtr != BufferEnd; ++BufferPtr) {
if (*BufferPtr == '*') {
assert(BufferPtr + 1 != BufferEnd);
if (*(BufferPtr + 1) == '/')
return BufferPtr;
}
}
llvm_unreachable("buffer end hit before '*/' was seen");
}
} // unnamed namespace
void Lexer::lexCommentText(Token &T) {
assert(CommentState == LCS_InsideBCPLComment ||
CommentState == LCS_InsideCComment);
switch (State) {
case LS_Normal:
break;
case LS_VerbatimBlockFirstLine:
lexVerbatimBlockFirstLine(T);
return;
case LS_VerbatimBlockBody:
lexVerbatimBlockBody(T);
return;
case LS_VerbatimLineText:
lexVerbatimLineText(T);
return;
case LS_HTMLStartTag:
lexHTMLStartTag(T);
return;
case LS_HTMLEndTag:
lexHTMLEndTag(T);
return;
}
assert(State == LS_Normal);
const char *TokenPtr = BufferPtr;
assert(TokenPtr < CommentEnd);
while (TokenPtr != CommentEnd) {
switch(*TokenPtr) {
case '\\':
case '@': {
TokenPtr++;
if (TokenPtr == CommentEnd) {
formTextToken(T, TokenPtr);
return;
}
char C = *TokenPtr;
switch (C) {
default:
break;
case '\\': case '@': case '&': case '$':
case '#': case '<': case '>': case '%':
case '\"': case '.': case ':':
// This is one of \\ \@ \& \$ etc escape sequences.
TokenPtr++;
if (C == ':' && TokenPtr != CommentEnd && *TokenPtr == ':') {
// This is the \:: escape sequence.
TokenPtr++;
}
StringRef UnescapedText(BufferPtr + 1, TokenPtr - (BufferPtr + 1));
formTokenWithChars(T, TokenPtr, tok::text);
T.setText(UnescapedText);
return;
}
// Don't make zero-length commands.
if (!isCommandNameCharacter(*TokenPtr)) {
formTextToken(T, TokenPtr);
return;
}
TokenPtr = skipCommandName(TokenPtr, CommentEnd);
unsigned Length = TokenPtr - (BufferPtr + 1);
// Hardcoded support for lexing LaTeX formula commands
// \f$ \f[ \f] \f{ \f} as a single command.
if (Length == 1 && TokenPtr[-1] == 'f' && TokenPtr != CommentEnd) {
C = *TokenPtr;
if (C == '$' || C == '[' || C == ']' || C == '{' || C == '}') {
TokenPtr++;
Length++;
}
}
const StringRef CommandName(BufferPtr + 1, Length);
StringRef EndName;
if (Traits.isVerbatimBlockCommand(CommandName, EndName)) {
setupAndLexVerbatimBlock(T, TokenPtr, *BufferPtr, EndName);
return;
}
if (Traits.isVerbatimLineCommand(CommandName)) {
setupAndLexVerbatimLine(T, TokenPtr);
return;
}
formTokenWithChars(T, TokenPtr, tok::command);
T.setCommandName(CommandName);
return;
}
case '&':
lexHTMLCharacterReference(T);
return;
case '<': {
TokenPtr++;
if (TokenPtr == CommentEnd) {
formTextToken(T, TokenPtr);
return;
}
const char C = *TokenPtr;
if (isHTMLIdentifierStartingCharacter(C))
setupAndLexHTMLStartTag(T);
else if (C == '/')
setupAndLexHTMLEndTag(T);
else
formTextToken(T, TokenPtr);
return;
}
case '\n':
case '\r':
TokenPtr = skipNewline(TokenPtr, CommentEnd);
formTokenWithChars(T, TokenPtr, tok::newline);
if (CommentState == LCS_InsideCComment)
skipLineStartingDecorations();
return;
default: {
while (true) {
TokenPtr++;
if (TokenPtr == CommentEnd)
break;
const char C = *TokenPtr;
if(C == '\n' || C == '\r' ||
C == '\\' || C == '@' || C == '&' || C == '<')
break;
}
formTextToken(T, TokenPtr);
return;
}
}
}
}
void Lexer::setupAndLexVerbatimBlock(Token &T,
const char *TextBegin,
char Marker, StringRef EndName) {
VerbatimBlockEndCommandName.clear();
VerbatimBlockEndCommandName.append(Marker == '\\' ? "\\" : "@");
VerbatimBlockEndCommandName.append(EndName);
StringRef Name(BufferPtr + 1, TextBegin - (BufferPtr + 1));
formTokenWithChars(T, TextBegin, tok::verbatim_block_begin);
T.setVerbatimBlockName(Name);
// If there is a newline following the verbatim opening command, skip the
// newline so that we don't create an tok::verbatim_block_line with empty
// text content.
if (BufferPtr != CommentEnd) {
const char C = *BufferPtr;
if (C == '\n' || C == '\r') {
BufferPtr = skipNewline(BufferPtr, CommentEnd);
State = LS_VerbatimBlockBody;
return;
}
}
State = LS_VerbatimBlockFirstLine;
}
void Lexer::lexVerbatimBlockFirstLine(Token &T) {
again:
assert(BufferPtr < CommentEnd);
// FIXME: It would be better to scan the text once, finding either the block
// end command or newline.
//
// Extract current line.
const char *Newline = findNewline(BufferPtr, CommentEnd);
StringRef Line(BufferPtr, Newline - BufferPtr);
// Look for end command in current line.
size_t Pos = Line.find(VerbatimBlockEndCommandName);
const char *TextEnd;
const char *NextLine;
if (Pos == StringRef::npos) {
// Current line is completely verbatim.
TextEnd = Newline;
NextLine = skipNewline(Newline, CommentEnd);
} else if (Pos == 0) {
// Current line contains just an end command.
const char *End = BufferPtr + VerbatimBlockEndCommandName.size();
StringRef Name(BufferPtr + 1, End - (BufferPtr + 1));
formTokenWithChars(T, End, tok::verbatim_block_end);
T.setVerbatimBlockName(Name);
State = LS_Normal;
return;
} else {
// There is some text, followed by end command. Extract text first.
TextEnd = BufferPtr + Pos;
NextLine = TextEnd;
// If there is only whitespace before end command, skip whitespace.
if (isWhitespace(BufferPtr, TextEnd)) {
BufferPtr = TextEnd;
goto again;
}
}
StringRef Text(BufferPtr, TextEnd - BufferPtr);
formTokenWithChars(T, NextLine, tok::verbatim_block_line);
T.setVerbatimBlockText(Text);
State = LS_VerbatimBlockBody;
}
void Lexer::lexVerbatimBlockBody(Token &T) {
assert(State == LS_VerbatimBlockBody);
if (CommentState == LCS_InsideCComment)
skipLineStartingDecorations();
lexVerbatimBlockFirstLine(T);
}
void Lexer::setupAndLexVerbatimLine(Token &T, const char *TextBegin) {
const StringRef Name(BufferPtr + 1, TextBegin - BufferPtr - 1);
formTokenWithChars(T, TextBegin, tok::verbatim_line_name);
T.setVerbatimLineName(Name);
State = LS_VerbatimLineText;
}
void Lexer::lexVerbatimLineText(Token &T) {
assert(State == LS_VerbatimLineText);
// Extract current line.
const char *Newline = findNewline(BufferPtr, CommentEnd);
const StringRef Text(BufferPtr, Newline - BufferPtr);
formTokenWithChars(T, Newline, tok::verbatim_line_text);
T.setVerbatimLineText(Text);
State = LS_Normal;
}
void Lexer::lexHTMLCharacterReference(Token &T) {
const char *TokenPtr = BufferPtr;
assert(*TokenPtr == '&');
TokenPtr++;
if (TokenPtr == CommentEnd) {
formTextToken(T, TokenPtr);
return;
}
const char *NamePtr;
bool isNamed = false;
bool isDecimal = false;
char C = *TokenPtr;
if (isHTMLNamedCharacterReferenceCharacter(C)) {
NamePtr = TokenPtr;
TokenPtr = skipNamedCharacterReference(TokenPtr, CommentEnd);
isNamed = true;
} else if (C == '#') {
TokenPtr++;
if (TokenPtr == CommentEnd) {
formTextToken(T, TokenPtr);
return;
}
C = *TokenPtr;
if (isHTMLDecimalCharacterReferenceCharacter(C)) {
NamePtr = TokenPtr;
TokenPtr = skipDecimalCharacterReference(TokenPtr, CommentEnd);
isDecimal = true;
} else if (C == 'x' || C == 'X') {
TokenPtr++;
NamePtr = TokenPtr;
TokenPtr = skipHexCharacterReference(TokenPtr, CommentEnd);
} else {
formTextToken(T, TokenPtr);
return;
}
} else {
formTextToken(T, TokenPtr);
return;
}
if (NamePtr == TokenPtr || TokenPtr == CommentEnd ||
*TokenPtr != ';') {
formTextToken(T, TokenPtr);
return;
}
StringRef Name(NamePtr, TokenPtr - NamePtr);
TokenPtr++; // Skip semicolon.
StringRef Resolved;
if (isNamed)
Resolved = resolveHTMLNamedCharacterReference(Name);
else if (isDecimal)
Resolved = resolveHTMLDecimalCharacterReference(Name);
else
Resolved = resolveHTMLHexCharacterReference(Name);
if (Resolved.empty()) {
formTextToken(T, TokenPtr);
return;
}
formTokenWithChars(T, TokenPtr, tok::text);
T.setText(Resolved);
return;
}
void Lexer::setupAndLexHTMLStartTag(Token &T) {
assert(BufferPtr[0] == '<' &&
isHTMLIdentifierStartingCharacter(BufferPtr[1]));
const char *TagNameEnd = skipHTMLIdentifier(BufferPtr + 2, CommentEnd);
StringRef Name(BufferPtr + 1, TagNameEnd - (BufferPtr + 1));
formTokenWithChars(T, TagNameEnd, tok::html_start_tag);
T.setHTMLTagStartName(Name);
BufferPtr = skipWhitespace(BufferPtr, CommentEnd);
const char C = *BufferPtr;
if (BufferPtr != CommentEnd &&
(C == '>' || C == '/' || isHTMLIdentifierStartingCharacter(C)))
State = LS_HTMLStartTag;
}
void Lexer::lexHTMLStartTag(Token &T) {
assert(State == LS_HTMLStartTag);
const char *TokenPtr = BufferPtr;
char C = *TokenPtr;
if (isHTMLIdentifierCharacter(C)) {
TokenPtr = skipHTMLIdentifier(TokenPtr, CommentEnd);
StringRef Ident(BufferPtr, TokenPtr - BufferPtr);
formTokenWithChars(T, TokenPtr, tok::html_ident);
T.setHTMLIdent(Ident);
} else {
switch (C) {
case '=':
TokenPtr++;
formTokenWithChars(T, TokenPtr, tok::html_equals);
break;
case '\"':
case '\'': {
const char *OpenQuote = TokenPtr;
TokenPtr = skipHTMLQuotedString(TokenPtr, CommentEnd);
const char *ClosingQuote = TokenPtr;
if (TokenPtr != CommentEnd) // Skip closing quote.
TokenPtr++;
formTokenWithChars(T, TokenPtr, tok::html_quoted_string);
T.setHTMLQuotedString(StringRef(OpenQuote + 1,
ClosingQuote - (OpenQuote + 1)));
break;
}
case '>':
TokenPtr++;
formTokenWithChars(T, TokenPtr, tok::html_greater);
State = LS_Normal;
return;
case '/':
TokenPtr++;
if (TokenPtr != CommentEnd && *TokenPtr == '>') {
TokenPtr++;
formTokenWithChars(T, TokenPtr, tok::html_slash_greater);
} else
formTextToken(T, TokenPtr);
State = LS_Normal;
return;
}
}
// Now look ahead and return to normal state if we don't see any HTML tokens
// ahead.
BufferPtr = skipWhitespace(BufferPtr, CommentEnd);
if (BufferPtr == CommentEnd) {
State = LS_Normal;
return;
}
C = *BufferPtr;
if (!isHTMLIdentifierStartingCharacter(C) &&
C != '=' && C != '\"' && C != '\'' && C != '>') {
State = LS_Normal;
return;
}
}
void Lexer::setupAndLexHTMLEndTag(Token &T) {
assert(BufferPtr[0] == '<' && BufferPtr[1] == '/');
const char *TagNameBegin = skipWhitespace(BufferPtr + 2, CommentEnd);
const char *TagNameEnd = skipHTMLIdentifier(TagNameBegin, CommentEnd);
const char *End = skipWhitespace(TagNameEnd, CommentEnd);
formTokenWithChars(T, End, tok::html_end_tag);
T.setHTMLTagEndName(StringRef(TagNameBegin, TagNameEnd - TagNameBegin));
if (BufferPtr != CommentEnd && *BufferPtr == '>')
State = LS_HTMLEndTag;
}
void Lexer::lexHTMLEndTag(Token &T) {
assert(BufferPtr != CommentEnd && *BufferPtr == '>');
formTokenWithChars(T, BufferPtr + 1, tok::html_greater);
State = LS_Normal;
}
Lexer::Lexer(llvm::BumpPtrAllocator &Allocator, const CommandTraits &Traits,
SourceLocation FileLoc, const CommentOptions &CommOpts,
const char *BufferStart, const char *BufferEnd):
Allocator(Allocator), Traits(Traits),
BufferStart(BufferStart), BufferEnd(BufferEnd),
FileLoc(FileLoc), CommOpts(CommOpts), BufferPtr(BufferStart),
CommentState(LCS_BeforeComment), State(LS_Normal) {
}
void Lexer::lex(Token &T) {
again:
switch (CommentState) {
case LCS_BeforeComment:
if (BufferPtr == BufferEnd) {
formTokenWithChars(T, BufferPtr, tok::eof);
return;
}
assert(*BufferPtr == '/');
BufferPtr++; // Skip first slash.
switch(*BufferPtr) {
case '/': { // BCPL comment.
BufferPtr++; // Skip second slash.
if (BufferPtr != BufferEnd) {
// Skip Doxygen magic marker, if it is present.
// It might be missing because of a typo //< or /*<, or because we
// merged this non-Doxygen comment into a bunch of Doxygen comments
// around it: /** ... */ /* ... */ /** ... */
const char C = *BufferPtr;
if (C == '/' || C == '!')
BufferPtr++;
}
// Skip less-than symbol that marks trailing comments.
// Skip it even if the comment is not a Doxygen one, because //< and /*<
// are frequent typos.
if (BufferPtr != BufferEnd && *BufferPtr == '<')
BufferPtr++;
CommentState = LCS_InsideBCPLComment;
if (State != LS_VerbatimBlockBody && State != LS_VerbatimBlockFirstLine)
State = LS_Normal;
CommentEnd = findBCPLCommentEnd(BufferPtr, BufferEnd);
goto again;
}
case '*': { // C comment.
BufferPtr++; // Skip star.
// Skip Doxygen magic marker.
const char C = *BufferPtr;
if ((C == '*' && *(BufferPtr + 1) != '/') || C == '!')
BufferPtr++;
// Skip less-than symbol that marks trailing comments.
if (BufferPtr != BufferEnd && *BufferPtr == '<')
BufferPtr++;
CommentState = LCS_InsideCComment;
State = LS_Normal;
CommentEnd = findCCommentEnd(BufferPtr, BufferEnd);
goto again;
}
default:
llvm_unreachable("second character of comment should be '/' or '*'");
}
case LCS_BetweenComments: {
// Consecutive comments are extracted only if there is only whitespace
// between them. So we can search for the start of the next comment.
const char *EndWhitespace = BufferPtr;
while(EndWhitespace != BufferEnd && *EndWhitespace != '/')
EndWhitespace++;
// Turn any whitespace between comments (and there is only whitespace
// between them -- guaranteed by comment extraction) into a newline. We
// have two newlines between C comments in total (first one was synthesized
// after a comment).
formTokenWithChars(T, EndWhitespace, tok::newline);
CommentState = LCS_BeforeComment;
break;
}
case LCS_InsideBCPLComment:
case LCS_InsideCComment:
if (BufferPtr != CommentEnd) {
lexCommentText(T);
break;
} else {
// Skip C comment closing sequence.
if (CommentState == LCS_InsideCComment) {
assert(BufferPtr[0] == '*' && BufferPtr[1] == '/');
BufferPtr += 2;
assert(BufferPtr <= BufferEnd);
// Synthenize newline just after the C comment, regardless if there is
// actually a newline.
formTokenWithChars(T, BufferPtr, tok::newline);
CommentState = LCS_BetweenComments;
break;
} else {
// Don't synthesized a newline after BCPL comment.
CommentState = LCS_BetweenComments;
goto again;
}
}
}
}
StringRef Lexer::getSpelling(const Token &Tok,
const SourceManager &SourceMgr,
bool *Invalid) const {
SourceLocation Loc = Tok.getLocation();
std::pair<FileID, unsigned> LocInfo = SourceMgr.getDecomposedLoc(Loc);
bool InvalidTemp = false;
StringRef File = SourceMgr.getBufferData(LocInfo.first, &InvalidTemp);
if (InvalidTemp) {
*Invalid = true;
return StringRef();
}
const char *Begin = File.data() + LocInfo.second;
return StringRef(Begin, Tok.getLength());
}
} // end namespace comments
} // end namespace clang