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c1a311233c
This is another (final?) stab at making us able to parse our own asm output on Windows. Symbols on Windows often contain @'s and ?'s in their names. Our asm parser didn't like this. ?'s were not allowed, and @'s were intepreted as trying to reference PLT/GOT/etc. We can't just add quotes around the bad names, since e.g. for MinGW, we use gas to assemble, and it doesn't like quotes in some places (notably in .def directives). This commit makes us allow ?'s in symbol names, and @'s in symbol names for MS assembly. Differential Revision: http://llvm-reviews.chandlerc.com/D1978 llvm-svn: 193000
569 lines
18 KiB
C++
569 lines
18 KiB
C++
//===- AsmLexer.cpp - Lexer for Assembly Files ----------------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This class implements the lexer for assembly files.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/MC/MCParser/AsmLexer.h"
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#include "llvm/MC/MCAsmInfo.h"
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#include "llvm/Support/MemoryBuffer.h"
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#include "llvm/Support/SMLoc.h"
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#include <cctype>
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#include <cerrno>
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#include <cstdio>
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#include <cstdlib>
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using namespace llvm;
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AsmLexer::AsmLexer(const MCAsmInfo &_MAI) : MAI(_MAI) {
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CurBuf = NULL;
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CurPtr = NULL;
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isAtStartOfLine = true;
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}
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AsmLexer::~AsmLexer() {
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}
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void AsmLexer::setBuffer(const MemoryBuffer *buf, const char *ptr) {
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CurBuf = buf;
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if (ptr)
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CurPtr = ptr;
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else
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CurPtr = CurBuf->getBufferStart();
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TokStart = 0;
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}
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/// ReturnError - Set the error to the specified string at the specified
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/// location. This is defined to always return AsmToken::Error.
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AsmToken AsmLexer::ReturnError(const char *Loc, const std::string &Msg) {
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SetError(SMLoc::getFromPointer(Loc), Msg);
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return AsmToken(AsmToken::Error, StringRef(Loc, 0));
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}
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int AsmLexer::getNextChar() {
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char CurChar = *CurPtr++;
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switch (CurChar) {
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default:
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return (unsigned char)CurChar;
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case 0:
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// A nul character in the stream is either the end of the current buffer or
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// a random nul in the file. Disambiguate that here.
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if (CurPtr-1 != CurBuf->getBufferEnd())
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return 0; // Just whitespace.
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// Otherwise, return end of file.
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--CurPtr; // Another call to lex will return EOF again.
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return EOF;
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}
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}
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/// LexFloatLiteral: [0-9]*[.][0-9]*([eE][+-]?[0-9]*)?
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///
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/// The leading integral digit sequence and dot should have already been
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/// consumed, some or all of the fractional digit sequence *can* have been
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/// consumed.
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AsmToken AsmLexer::LexFloatLiteral() {
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// Skip the fractional digit sequence.
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while (isdigit(*CurPtr))
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++CurPtr;
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// Check for exponent; we intentionally accept a slighlty wider set of
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// literals here and rely on the upstream client to reject invalid ones (e.g.,
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// "1e+").
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if (*CurPtr == 'e' || *CurPtr == 'E') {
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++CurPtr;
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if (*CurPtr == '-' || *CurPtr == '+')
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++CurPtr;
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while (isdigit(*CurPtr))
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++CurPtr;
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}
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return AsmToken(AsmToken::Real,
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StringRef(TokStart, CurPtr - TokStart));
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}
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/// LexHexFloatLiteral matches essentially (.[0-9a-fA-F]*)?[pP][+-]?[0-9a-fA-F]+
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/// while making sure there are enough actual digits around for the constant to
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/// be valid.
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///
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/// The leading "0x[0-9a-fA-F]*" (i.e. integer part) has already been consumed
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/// before we get here.
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AsmToken AsmLexer::LexHexFloatLiteral(bool NoIntDigits) {
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assert((*CurPtr == 'p' || *CurPtr == 'P' || *CurPtr == '.') &&
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"unexpected parse state in floating hex");
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bool NoFracDigits = true;
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// Skip the fractional part if there is one
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if (*CurPtr == '.') {
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++CurPtr;
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const char *FracStart = CurPtr;
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while (isxdigit(*CurPtr))
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++CurPtr;
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NoFracDigits = CurPtr == FracStart;
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}
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if (NoIntDigits && NoFracDigits)
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return ReturnError(TokStart, "invalid hexadecimal floating-point constant: "
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"expected at least one significand digit");
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// Make sure we do have some kind of proper exponent part
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if (*CurPtr != 'p' && *CurPtr != 'P')
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return ReturnError(TokStart, "invalid hexadecimal floating-point constant: "
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"expected exponent part 'p'");
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++CurPtr;
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if (*CurPtr == '+' || *CurPtr == '-')
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++CurPtr;
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// N.b. exponent digits are *not* hex
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const char *ExpStart = CurPtr;
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while (isdigit(*CurPtr))
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++CurPtr;
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if (CurPtr == ExpStart)
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return ReturnError(TokStart, "invalid hexadecimal floating-point constant: "
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"expected at least one exponent digit");
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return AsmToken(AsmToken::Real, StringRef(TokStart, CurPtr - TokStart));
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}
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/// LexIdentifier: [a-zA-Z_.][a-zA-Z0-9_$.@?]*
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static bool IsIdentifierChar(char c) {
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return isalnum(c) || c == '_' || c == '$' || c == '.' || c == '@' || c == '?';
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}
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AsmToken AsmLexer::LexIdentifier() {
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// Check for floating point literals.
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if (CurPtr[-1] == '.' && isdigit(*CurPtr)) {
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// Disambiguate a .1243foo identifier from a floating literal.
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while (isdigit(*CurPtr))
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++CurPtr;
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if (*CurPtr == 'e' || *CurPtr == 'E' || !IsIdentifierChar(*CurPtr))
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return LexFloatLiteral();
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}
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while (IsIdentifierChar(*CurPtr))
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++CurPtr;
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// Handle . as a special case.
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if (CurPtr == TokStart+1 && TokStart[0] == '.')
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return AsmToken(AsmToken::Dot, StringRef(TokStart, 1));
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return AsmToken(AsmToken::Identifier, StringRef(TokStart, CurPtr - TokStart));
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}
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/// LexSlash: Slash: /
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/// C-Style Comment: /* ... */
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AsmToken AsmLexer::LexSlash() {
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switch (*CurPtr) {
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case '*': break; // C style comment.
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case '/': return ++CurPtr, LexLineComment();
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default: return AsmToken(AsmToken::Slash, StringRef(CurPtr-1, 1));
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}
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// C Style comment.
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++CurPtr; // skip the star.
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while (1) {
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int CurChar = getNextChar();
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switch (CurChar) {
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case EOF:
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return ReturnError(TokStart, "unterminated comment");
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case '*':
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// End of the comment?
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if (CurPtr[0] != '/') break;
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++CurPtr; // End the */.
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return LexToken();
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}
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}
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}
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/// LexLineComment: Comment: #[^\n]*
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/// : //[^\n]*
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AsmToken AsmLexer::LexLineComment() {
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// FIXME: This is broken if we happen to a comment at the end of a file, which
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// was .included, and which doesn't end with a newline.
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int CurChar = getNextChar();
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while (CurChar != '\n' && CurChar != '\r' && CurChar != EOF)
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CurChar = getNextChar();
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if (CurChar == EOF)
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return AsmToken(AsmToken::Eof, StringRef(CurPtr, 0));
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return AsmToken(AsmToken::EndOfStatement, StringRef(CurPtr, 0));
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}
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static void SkipIgnoredIntegerSuffix(const char *&CurPtr) {
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// Skip ULL, UL, U, L and LL suffices.
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if (CurPtr[0] == 'U')
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++CurPtr;
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if (CurPtr[0] == 'L')
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++CurPtr;
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if (CurPtr[0] == 'L')
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++CurPtr;
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}
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// Look ahead to search for first non-hex digit, if it's [hH], then we treat the
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// integer as a hexadecimal, possibly with leading zeroes.
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static unsigned doLookAhead(const char *&CurPtr, unsigned DefaultRadix) {
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const char *FirstHex = 0;
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const char *LookAhead = CurPtr;
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while (1) {
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if (isdigit(*LookAhead)) {
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++LookAhead;
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} else if (isxdigit(*LookAhead)) {
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if (!FirstHex)
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FirstHex = LookAhead;
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++LookAhead;
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} else {
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break;
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}
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}
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bool isHex = *LookAhead == 'h' || *LookAhead == 'H';
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CurPtr = isHex || !FirstHex ? LookAhead : FirstHex;
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if (isHex)
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return 16;
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return DefaultRadix;
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}
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/// LexDigit: First character is [0-9].
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/// Local Label: [0-9][:]
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/// Forward/Backward Label: [0-9][fb]
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/// Binary integer: 0b[01]+
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/// Octal integer: 0[0-7]+
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/// Hex integer: 0x[0-9a-fA-F]+ or [0x]?[0-9][0-9a-fA-F]*[hH]
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/// Decimal integer: [1-9][0-9]*
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AsmToken AsmLexer::LexDigit() {
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// Decimal integer: [1-9][0-9]*
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if (CurPtr[-1] != '0' || CurPtr[0] == '.') {
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unsigned Radix = doLookAhead(CurPtr, 10);
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bool isHex = Radix == 16;
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// Check for floating point literals.
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if (!isHex && (*CurPtr == '.' || *CurPtr == 'e')) {
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++CurPtr;
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return LexFloatLiteral();
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}
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StringRef Result(TokStart, CurPtr - TokStart);
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long long Value;
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if (Result.getAsInteger(Radix, Value)) {
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// Allow positive values that are too large to fit into a signed 64-bit
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// integer, but that do fit in an unsigned one, we just convert them over.
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unsigned long long UValue;
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if (Result.getAsInteger(Radix, UValue))
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return ReturnError(TokStart, !isHex ? "invalid decimal number" :
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"invalid hexdecimal number");
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Value = (long long)UValue;
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}
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// Consume the [bB][hH].
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if (Radix == 2 || Radix == 16)
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++CurPtr;
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// The darwin/x86 (and x86-64) assembler accepts and ignores type
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// suffices on integer literals.
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SkipIgnoredIntegerSuffix(CurPtr);
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return AsmToken(AsmToken::Integer, Result, Value);
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}
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if (*CurPtr == 'b') {
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++CurPtr;
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// See if we actually have "0b" as part of something like "jmp 0b\n"
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if (!isdigit(CurPtr[0])) {
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--CurPtr;
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StringRef Result(TokStart, CurPtr - TokStart);
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return AsmToken(AsmToken::Integer, Result, 0);
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}
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const char *NumStart = CurPtr;
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while (CurPtr[0] == '0' || CurPtr[0] == '1')
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++CurPtr;
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// Requires at least one binary digit.
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if (CurPtr == NumStart)
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return ReturnError(TokStart, "invalid binary number");
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StringRef Result(TokStart, CurPtr - TokStart);
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long long Value;
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if (Result.substr(2).getAsInteger(2, Value))
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return ReturnError(TokStart, "invalid binary number");
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// The darwin/x86 (and x86-64) assembler accepts and ignores ULL and LL
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// suffixes on integer literals.
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SkipIgnoredIntegerSuffix(CurPtr);
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return AsmToken(AsmToken::Integer, Result, Value);
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}
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if (*CurPtr == 'x') {
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++CurPtr;
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const char *NumStart = CurPtr;
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while (isxdigit(CurPtr[0]))
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++CurPtr;
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// "0x.0p0" is valid, and "0x0p0" (but not "0xp0" for example, which will be
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// diagnosed by LexHexFloatLiteral).
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if (CurPtr[0] == '.' || CurPtr[0] == 'p' || CurPtr[0] == 'P')
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return LexHexFloatLiteral(NumStart == CurPtr);
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// Otherwise requires at least one hex digit.
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if (CurPtr == NumStart)
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return ReturnError(CurPtr-2, "invalid hexadecimal number");
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unsigned long long Result;
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if (StringRef(TokStart, CurPtr - TokStart).getAsInteger(0, Result))
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return ReturnError(TokStart, "invalid hexadecimal number");
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// Consume the optional [hH].
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if (*CurPtr == 'h' || *CurPtr == 'H')
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++CurPtr;
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// The darwin/x86 (and x86-64) assembler accepts and ignores ULL and LL
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// suffixes on integer literals.
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SkipIgnoredIntegerSuffix(CurPtr);
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return AsmToken(AsmToken::Integer, StringRef(TokStart, CurPtr - TokStart),
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(int64_t)Result);
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}
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// Either octal or hexadecimal.
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long long Value;
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unsigned Radix = doLookAhead(CurPtr, 8);
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bool isHex = Radix == 16;
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StringRef Result(TokStart, CurPtr - TokStart);
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if (Result.getAsInteger(Radix, Value))
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return ReturnError(TokStart, !isHex ? "invalid octal number" :
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"invalid hexdecimal number");
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// Consume the [hH].
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if (Radix == 16)
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++CurPtr;
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// The darwin/x86 (and x86-64) assembler accepts and ignores ULL and LL
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// suffixes on integer literals.
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SkipIgnoredIntegerSuffix(CurPtr);
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return AsmToken(AsmToken::Integer, Result, Value);
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}
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/// LexSingleQuote: Integer: 'b'
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AsmToken AsmLexer::LexSingleQuote() {
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int CurChar = getNextChar();
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if (CurChar == '\\')
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CurChar = getNextChar();
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if (CurChar == EOF)
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return ReturnError(TokStart, "unterminated single quote");
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CurChar = getNextChar();
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if (CurChar != '\'')
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return ReturnError(TokStart, "single quote way too long");
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// The idea here being that 'c' is basically just an integral
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// constant.
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StringRef Res = StringRef(TokStart,CurPtr - TokStart);
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long long Value;
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if (Res.startswith("\'\\")) {
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char theChar = Res[2];
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switch (theChar) {
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default: Value = theChar; break;
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case '\'': Value = '\''; break;
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case 't': Value = '\t'; break;
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case 'n': Value = '\n'; break;
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case 'b': Value = '\b'; break;
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}
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} else
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Value = TokStart[1];
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return AsmToken(AsmToken::Integer, Res, Value);
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}
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/// LexQuote: String: "..."
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AsmToken AsmLexer::LexQuote() {
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int CurChar = getNextChar();
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// TODO: does gas allow multiline string constants?
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while (CurChar != '"') {
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if (CurChar == '\\') {
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// Allow \", etc.
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CurChar = getNextChar();
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}
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if (CurChar == EOF)
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return ReturnError(TokStart, "unterminated string constant");
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CurChar = getNextChar();
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}
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return AsmToken(AsmToken::String, StringRef(TokStart, CurPtr - TokStart));
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}
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StringRef AsmLexer::LexUntilEndOfStatement() {
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TokStart = CurPtr;
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while (!isAtStartOfComment(*CurPtr) && // Start of line comment.
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!isAtStatementSeparator(CurPtr) && // End of statement marker.
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*CurPtr != '\n' &&
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*CurPtr != '\r' &&
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(*CurPtr != 0 || CurPtr != CurBuf->getBufferEnd())) {
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++CurPtr;
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}
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return StringRef(TokStart, CurPtr-TokStart);
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}
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StringRef AsmLexer::LexUntilEndOfLine() {
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TokStart = CurPtr;
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while (*CurPtr != '\n' &&
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*CurPtr != '\r' &&
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(*CurPtr != 0 || CurPtr != CurBuf->getBufferEnd())) {
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++CurPtr;
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}
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return StringRef(TokStart, CurPtr-TokStart);
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}
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bool AsmLexer::isAtStartOfComment(char Char) {
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// FIXME: This won't work for multi-character comment indicators like "//".
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return Char == *MAI.getCommentString();
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}
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bool AsmLexer::isAtStatementSeparator(const char *Ptr) {
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return strncmp(Ptr, MAI.getSeparatorString(),
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strlen(MAI.getSeparatorString())) == 0;
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}
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AsmToken AsmLexer::LexToken() {
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TokStart = CurPtr;
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// This always consumes at least one character.
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int CurChar = getNextChar();
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if (isAtStartOfComment(CurChar)) {
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// If this comment starts with a '#', then return the Hash token and let
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// the assembler parser see if it can be parsed as a cpp line filename
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// comment. We do this only if we are at the start of a line.
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if (CurChar == '#' && isAtStartOfLine)
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return AsmToken(AsmToken::Hash, StringRef(TokStart, 1));
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isAtStartOfLine = true;
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return LexLineComment();
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}
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if (isAtStatementSeparator(TokStart)) {
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CurPtr += strlen(MAI.getSeparatorString()) - 1;
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return AsmToken(AsmToken::EndOfStatement,
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StringRef(TokStart, strlen(MAI.getSeparatorString())));
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}
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// If we're missing a newline at EOF, make sure we still get an
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// EndOfStatement token before the Eof token.
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if (CurChar == EOF && !isAtStartOfLine) {
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isAtStartOfLine = true;
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return AsmToken(AsmToken::EndOfStatement, StringRef(TokStart, 1));
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}
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isAtStartOfLine = false;
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switch (CurChar) {
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default:
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// Handle identifier: [a-zA-Z_.][a-zA-Z0-9_$.@]*
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if (isalpha(CurChar) || CurChar == '_' || CurChar == '.')
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return LexIdentifier();
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// Unknown character, emit an error.
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return ReturnError(TokStart, "invalid character in input");
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case EOF: return AsmToken(AsmToken::Eof, StringRef(TokStart, 0));
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case 0:
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case ' ':
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case '\t':
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if (SkipSpace) {
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// Ignore whitespace.
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return LexToken();
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} else {
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int len = 1;
|
|
while (*CurPtr==' ' || *CurPtr=='\t') {
|
|
CurPtr++;
|
|
len++;
|
|
}
|
|
return AsmToken(AsmToken::Space, StringRef(TokStart, len));
|
|
}
|
|
case '\n': // FALL THROUGH.
|
|
case '\r':
|
|
isAtStartOfLine = true;
|
|
return AsmToken(AsmToken::EndOfStatement, StringRef(TokStart, 1));
|
|
case ':': return AsmToken(AsmToken::Colon, StringRef(TokStart, 1));
|
|
case '+': return AsmToken(AsmToken::Plus, StringRef(TokStart, 1));
|
|
case '-': return AsmToken(AsmToken::Minus, StringRef(TokStart, 1));
|
|
case '~': return AsmToken(AsmToken::Tilde, StringRef(TokStart, 1));
|
|
case '(': return AsmToken(AsmToken::LParen, StringRef(TokStart, 1));
|
|
case ')': return AsmToken(AsmToken::RParen, StringRef(TokStart, 1));
|
|
case '[': return AsmToken(AsmToken::LBrac, StringRef(TokStart, 1));
|
|
case ']': return AsmToken(AsmToken::RBrac, StringRef(TokStart, 1));
|
|
case '{': return AsmToken(AsmToken::LCurly, StringRef(TokStart, 1));
|
|
case '}': return AsmToken(AsmToken::RCurly, StringRef(TokStart, 1));
|
|
case '*': return AsmToken(AsmToken::Star, StringRef(TokStart, 1));
|
|
case ',': return AsmToken(AsmToken::Comma, StringRef(TokStart, 1));
|
|
case '$': return AsmToken(AsmToken::Dollar, StringRef(TokStart, 1));
|
|
case '@': return AsmToken(AsmToken::At, StringRef(TokStart, 1));
|
|
case '\\': return AsmToken(AsmToken::BackSlash, StringRef(TokStart, 1));
|
|
case '=':
|
|
if (*CurPtr == '=')
|
|
return ++CurPtr, AsmToken(AsmToken::EqualEqual, StringRef(TokStart, 2));
|
|
return AsmToken(AsmToken::Equal, StringRef(TokStart, 1));
|
|
case '|':
|
|
if (*CurPtr == '|')
|
|
return ++CurPtr, AsmToken(AsmToken::PipePipe, StringRef(TokStart, 2));
|
|
return AsmToken(AsmToken::Pipe, StringRef(TokStart, 1));
|
|
case '^': return AsmToken(AsmToken::Caret, StringRef(TokStart, 1));
|
|
case '&':
|
|
if (*CurPtr == '&')
|
|
return ++CurPtr, AsmToken(AsmToken::AmpAmp, StringRef(TokStart, 2));
|
|
return AsmToken(AsmToken::Amp, StringRef(TokStart, 1));
|
|
case '!':
|
|
if (*CurPtr == '=')
|
|
return ++CurPtr, AsmToken(AsmToken::ExclaimEqual, StringRef(TokStart, 2));
|
|
return AsmToken(AsmToken::Exclaim, StringRef(TokStart, 1));
|
|
case '%': return AsmToken(AsmToken::Percent, StringRef(TokStart, 1));
|
|
case '/': return LexSlash();
|
|
case '#': return AsmToken(AsmToken::Hash, StringRef(TokStart, 1));
|
|
case '\'': return LexSingleQuote();
|
|
case '"': return LexQuote();
|
|
case '0': case '1': case '2': case '3': case '4':
|
|
case '5': case '6': case '7': case '8': case '9':
|
|
return LexDigit();
|
|
case '<':
|
|
switch (*CurPtr) {
|
|
case '<': return ++CurPtr, AsmToken(AsmToken::LessLess,
|
|
StringRef(TokStart, 2));
|
|
case '=': return ++CurPtr, AsmToken(AsmToken::LessEqual,
|
|
StringRef(TokStart, 2));
|
|
case '>': return ++CurPtr, AsmToken(AsmToken::LessGreater,
|
|
StringRef(TokStart, 2));
|
|
default: return AsmToken(AsmToken::Less, StringRef(TokStart, 1));
|
|
}
|
|
case '>':
|
|
switch (*CurPtr) {
|
|
case '>': return ++CurPtr, AsmToken(AsmToken::GreaterGreater,
|
|
StringRef(TokStart, 2));
|
|
case '=': return ++CurPtr, AsmToken(AsmToken::GreaterEqual,
|
|
StringRef(TokStart, 2));
|
|
default: return AsmToken(AsmToken::Greater, StringRef(TokStart, 1));
|
|
}
|
|
|
|
// TODO: Quoted identifiers (objc methods etc)
|
|
// local labels: [0-9][:]
|
|
// Forward/backward labels: [0-9][fb]
|
|
// Integers, fp constants, character constants.
|
|
}
|
|
}
|