llvm-6502/lib/AsmParser/LLLexer.cpp

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//===- LLLexer.cpp - Lexer for .ll Files ----------------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// Implement the Lexer for .ll files.
//
//===----------------------------------------------------------------------===//
#include "LLLexer.h"
#include "llvm/ADT/StringExtras.h"
#include "llvm/ADT/Twine.h"
#include "llvm/AsmParser/Parser.h"
#include "llvm/IR/DerivedTypes.h"
#include "llvm/IR/Instruction.h"
#include "llvm/IR/LLVMContext.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/MathExtras.h"
#include "llvm/Support/MemoryBuffer.h"
#include "llvm/Support/SourceMgr.h"
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#include "llvm/Support/raw_ostream.h"
#include <cctype>
#include <cstdio>
#include <cstdlib>
#include <cstring>
using namespace llvm;
bool LLLexer::Error(LocTy ErrorLoc, const Twine &Msg) const {
ErrorInfo = SM.GetMessage(ErrorLoc, SourceMgr::DK_Error, Msg);
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return true;
}
//===----------------------------------------------------------------------===//
// Helper functions.
//===----------------------------------------------------------------------===//
// atoull - Convert an ascii string of decimal digits into the unsigned long
// long representation... this does not have to do input error checking,
// because we know that the input will be matched by a suitable regex...
//
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uint64_t LLLexer::atoull(const char *Buffer, const char *End) {
uint64_t Result = 0;
for (; Buffer != End; Buffer++) {
uint64_t OldRes = Result;
Result *= 10;
Result += *Buffer-'0';
if (Result < OldRes) { // Uh, oh, overflow detected!!!
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Error("constant bigger than 64 bits detected!");
return 0;
}
}
return Result;
}
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uint64_t LLLexer::HexIntToVal(const char *Buffer, const char *End) {
uint64_t Result = 0;
for (; Buffer != End; ++Buffer) {
uint64_t OldRes = Result;
Result *= 16;
Result += hexDigitValue(*Buffer);
if (Result < OldRes) { // Uh, oh, overflow detected!!!
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Error("constant bigger than 64 bits detected!");
return 0;
}
}
return Result;
}
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void LLLexer::HexToIntPair(const char *Buffer, const char *End,
uint64_t Pair[2]) {
Pair[0] = 0;
for (int i=0; i<16; i++, Buffer++) {
assert(Buffer != End);
Pair[0] *= 16;
Pair[0] += hexDigitValue(*Buffer);
}
Pair[1] = 0;
for (int i=0; i<16 && Buffer != End; i++, Buffer++) {
Pair[1] *= 16;
Pair[1] += hexDigitValue(*Buffer);
}
if (Buffer != End)
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Error("constant bigger than 128 bits detected!");
}
/// FP80HexToIntPair - translate an 80 bit FP80 number (20 hexits) into
/// { low64, high16 } as usual for an APInt.
void LLLexer::FP80HexToIntPair(const char *Buffer, const char *End,
uint64_t Pair[2]) {
Pair[1] = 0;
for (int i=0; i<4 && Buffer != End; i++, Buffer++) {
assert(Buffer != End);
Pair[1] *= 16;
Pair[1] += hexDigitValue(*Buffer);
}
Pair[0] = 0;
for (int i=0; i<16; i++, Buffer++) {
Pair[0] *= 16;
Pair[0] += hexDigitValue(*Buffer);
}
if (Buffer != End)
Error("constant bigger than 128 bits detected!");
}
// UnEscapeLexed - Run through the specified buffer and change \xx codes to the
// appropriate character.
static void UnEscapeLexed(std::string &Str) {
if (Str.empty()) return;
char *Buffer = &Str[0], *EndBuffer = Buffer+Str.size();
char *BOut = Buffer;
for (char *BIn = Buffer; BIn != EndBuffer; ) {
if (BIn[0] == '\\') {
if (BIn < EndBuffer-1 && BIn[1] == '\\') {
*BOut++ = '\\'; // Two \ becomes one
BIn += 2;
} else if (BIn < EndBuffer-2 &&
isxdigit(static_cast<unsigned char>(BIn[1])) &&
isxdigit(static_cast<unsigned char>(BIn[2]))) {
*BOut = hexDigitValue(BIn[1]) * 16 + hexDigitValue(BIn[2]);
BIn += 3; // Skip over handled chars
++BOut;
} else {
*BOut++ = *BIn++;
}
} else {
*BOut++ = *BIn++;
}
}
Str.resize(BOut-Buffer);
}
/// isLabelChar - Return true for [-a-zA-Z$._0-9].
static bool isLabelChar(char C) {
return isalnum(static_cast<unsigned char>(C)) || C == '-' || C == '$' ||
C == '.' || C == '_';
}
/// isLabelTail - Return true if this pointer points to a valid end of a label.
static const char *isLabelTail(const char *CurPtr) {
while (1) {
if (CurPtr[0] == ':') return CurPtr+1;
if (!isLabelChar(CurPtr[0])) return 0;
++CurPtr;
}
}
//===----------------------------------------------------------------------===//
// Lexer definition.
//===----------------------------------------------------------------------===//
LLLexer::LLLexer(MemoryBuffer *StartBuf, SourceMgr &sm, SMDiagnostic &Err,
LLVMContext &C)
: CurBuf(StartBuf), ErrorInfo(Err), SM(sm), Context(C), APFloatVal(0.0) {
CurPtr = CurBuf->getBufferStart();
}
std::string LLLexer::getFilename() const {
return CurBuf->getBufferIdentifier();
}
int LLLexer::getNextChar() {
char CurChar = *CurPtr++;
switch (CurChar) {
default: return (unsigned char)CurChar;
case 0:
// A nul character in the stream is either the end of the current buffer or
// a random nul in the file. Disambiguate that here.
if (CurPtr-1 != CurBuf->getBufferEnd())
return 0; // Just whitespace.
// Otherwise, return end of file.
--CurPtr; // Another call to lex will return EOF again.
return EOF;
}
}
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lltok::Kind LLLexer::LexToken() {
TokStart = CurPtr;
int CurChar = getNextChar();
switch (CurChar) {
default:
// Handle letters: [a-zA-Z_]
if (isalpha(static_cast<unsigned char>(CurChar)) || CurChar == '_')
return LexIdentifier();
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return lltok::Error;
case EOF: return lltok::Eof;
case 0:
case ' ':
case '\t':
case '\n':
case '\r':
// Ignore whitespace.
return LexToken();
case '+': return LexPositive();
case '@': return LexAt();
case '%': return LexPercent();
case '"': return LexQuote();
case '.':
if (const char *Ptr = isLabelTail(CurPtr)) {
CurPtr = Ptr;
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StrVal.assign(TokStart, CurPtr-1);
return lltok::LabelStr;
}
if (CurPtr[0] == '.' && CurPtr[1] == '.') {
CurPtr += 2;
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return lltok::dotdotdot;
}
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return lltok::Error;
case '$':
if (const char *Ptr = isLabelTail(CurPtr)) {
CurPtr = Ptr;
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StrVal.assign(TokStart, CurPtr-1);
return lltok::LabelStr;
}
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return lltok::Error;
case ';':
SkipLineComment();
return LexToken();
case '!': return LexExclaim();
case '#': return LexHash();
case '0': case '1': case '2': case '3': case '4':
case '5': case '6': case '7': case '8': case '9':
case '-':
return LexDigitOrNegative();
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case '=': return lltok::equal;
case '[': return lltok::lsquare;
case ']': return lltok::rsquare;
case '{': return lltok::lbrace;
case '}': return lltok::rbrace;
case '<': return lltok::less;
case '>': return lltok::greater;
case '(': return lltok::lparen;
case ')': return lltok::rparen;
case ',': return lltok::comma;
case '*': return lltok::star;
case '\\': return lltok::backslash;
}
}
void LLLexer::SkipLineComment() {
while (1) {
if (CurPtr[0] == '\n' || CurPtr[0] == '\r' || getNextChar() == EOF)
return;
}
}
/// LexAt - Lex all tokens that start with an @ character:
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/// GlobalVar @\"[^\"]*\"
/// GlobalVar @[-a-zA-Z$._][-a-zA-Z$._0-9]*
/// GlobalVarID @[0-9]+
lltok::Kind LLLexer::LexAt() {
// Handle AtStringConstant: @\"[^\"]*\"
if (CurPtr[0] == '"') {
++CurPtr;
while (1) {
int CurChar = getNextChar();
if (CurChar == EOF) {
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Error("end of file in global variable name");
return lltok::Error;
}
if (CurChar == '"') {
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StrVal.assign(TokStart+2, CurPtr-1);
UnEscapeLexed(StrVal);
if (StringRef(StrVal).find_first_of(0) != StringRef::npos) {
Error("Null bytes are not allowed in names");
return lltok::Error;
}
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return lltok::GlobalVar;
}
}
}
// Handle GlobalVarName: @[-a-zA-Z$._][-a-zA-Z$._0-9]*
if (ReadVarName())
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return lltok::GlobalVar;
// Handle GlobalVarID: @[0-9]+
if (isdigit(static_cast<unsigned char>(CurPtr[0]))) {
for (++CurPtr; isdigit(static_cast<unsigned char>(CurPtr[0])); ++CurPtr)
/*empty*/;
uint64_t Val = atoull(TokStart+1, CurPtr);
if ((unsigned)Val != Val)
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Error("invalid value number (too large)!");
UIntVal = unsigned(Val);
return lltok::GlobalID;
}
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return lltok::Error;
}
/// ReadString - Read a string until the closing quote.
lltok::Kind LLLexer::ReadString(lltok::Kind kind) {
const char *Start = CurPtr;
while (1) {
int CurChar = getNextChar();
if (CurChar == EOF) {
Error("end of file in string constant");
return lltok::Error;
}
if (CurChar == '"') {
StrVal.assign(Start, CurPtr-1);
UnEscapeLexed(StrVal);
return kind;
}
}
}
/// ReadVarName - Read the rest of a token containing a variable name.
bool LLLexer::ReadVarName() {
const char *NameStart = CurPtr;
if (isalpha(static_cast<unsigned char>(CurPtr[0])) ||
CurPtr[0] == '-' || CurPtr[0] == '$' ||
CurPtr[0] == '.' || CurPtr[0] == '_') {
++CurPtr;
while (isalnum(static_cast<unsigned char>(CurPtr[0])) ||
CurPtr[0] == '-' || CurPtr[0] == '$' ||
CurPtr[0] == '.' || CurPtr[0] == '_')
++CurPtr;
StrVal.assign(NameStart, CurPtr);
return true;
}
return false;
}
/// LexPercent - Lex all tokens that start with a % character:
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/// LocalVar ::= %\"[^\"]*\"
/// LocalVar ::= %[-a-zA-Z$._][-a-zA-Z$._0-9]*
/// LocalVarID ::= %[0-9]+
lltok::Kind LLLexer::LexPercent() {
// Handle LocalVarName: %\"[^\"]*\"
if (CurPtr[0] == '"') {
++CurPtr;
return ReadString(lltok::LocalVar);
}
// Handle LocalVarName: %[-a-zA-Z$._][-a-zA-Z$._0-9]*
if (ReadVarName())
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return lltok::LocalVar;
// Handle LocalVarID: %[0-9]+
if (isdigit(static_cast<unsigned char>(CurPtr[0]))) {
for (++CurPtr; isdigit(static_cast<unsigned char>(CurPtr[0])); ++CurPtr)
/*empty*/;
uint64_t Val = atoull(TokStart+1, CurPtr);
if ((unsigned)Val != Val)
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Error("invalid value number (too large)!");
UIntVal = unsigned(Val);
return lltok::LocalVarID;
}
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return lltok::Error;
}
/// LexQuote - Lex all tokens that start with a " character:
/// QuoteLabel "[^"]+":
/// StringConstant "[^"]*"
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lltok::Kind LLLexer::LexQuote() {
lltok::Kind kind = ReadString(lltok::StringConstant);
if (kind == lltok::Error || kind == lltok::Eof)
return kind;
if (CurPtr[0] == ':') {
++CurPtr;
kind = lltok::LabelStr;
}
return kind;
}
/// LexExclaim:
/// !foo
/// !
lltok::Kind LLLexer::LexExclaim() {
// Lex a metadata name as a MetadataVar.
if (isalpha(static_cast<unsigned char>(CurPtr[0])) ||
CurPtr[0] == '-' || CurPtr[0] == '$' ||
CurPtr[0] == '.' || CurPtr[0] == '_' || CurPtr[0] == '\\') {
++CurPtr;
while (isalnum(static_cast<unsigned char>(CurPtr[0])) ||
CurPtr[0] == '-' || CurPtr[0] == '$' ||
CurPtr[0] == '.' || CurPtr[0] == '_' || CurPtr[0] == '\\')
++CurPtr;
StrVal.assign(TokStart+1, CurPtr); // Skip !
UnEscapeLexed(StrVal);
return lltok::MetadataVar;
}
return lltok::exclaim;
}
/// LexHash - Lex all tokens that start with a # character:
/// AttrGrpID ::= #[0-9]+
lltok::Kind LLLexer::LexHash() {
// Handle AttrGrpID: #[0-9]+
if (isdigit(static_cast<unsigned char>(CurPtr[0]))) {
for (++CurPtr; isdigit(static_cast<unsigned char>(CurPtr[0])); ++CurPtr)
/*empty*/;
uint64_t Val = atoull(TokStart+1, CurPtr);
if ((unsigned)Val != Val)
Error("invalid value number (too large)!");
UIntVal = unsigned(Val);
return lltok::AttrGrpID;
}
return lltok::Error;
}
/// LexIdentifier: Handle several related productions:
/// Label [-a-zA-Z$._0-9]+:
/// IntegerType i[0-9]+
/// Keyword sdiv, float, ...
/// HexIntConstant [us]0x[0-9A-Fa-f]+
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lltok::Kind LLLexer::LexIdentifier() {
const char *StartChar = CurPtr;
const char *IntEnd = CurPtr[-1] == 'i' ? 0 : StartChar;
const char *KeywordEnd = 0;
for (; isLabelChar(*CurPtr); ++CurPtr) {
// If we decide this is an integer, remember the end of the sequence.
if (!IntEnd && !isdigit(static_cast<unsigned char>(*CurPtr)))
IntEnd = CurPtr;
if (!KeywordEnd && !isalnum(static_cast<unsigned char>(*CurPtr)) &&
*CurPtr != '_')
KeywordEnd = CurPtr;
}
// If we stopped due to a colon, this really is a label.
if (*CurPtr == ':') {
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StrVal.assign(StartChar-1, CurPtr++);
return lltok::LabelStr;
}
// Otherwise, this wasn't a label. If this was valid as an integer type,
// return it.
if (IntEnd == 0) IntEnd = CurPtr;
if (IntEnd != StartChar) {
CurPtr = IntEnd;
uint64_t NumBits = atoull(StartChar, CurPtr);
if (NumBits < IntegerType::MIN_INT_BITS ||
NumBits > IntegerType::MAX_INT_BITS) {
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Error("bitwidth for integer type out of range!");
return lltok::Error;
}
TyVal = IntegerType::get(Context, NumBits);
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return lltok::Type;
}
// Otherwise, this was a letter sequence. See which keyword this is.
if (KeywordEnd == 0) KeywordEnd = CurPtr;
CurPtr = KeywordEnd;
--StartChar;
unsigned Len = CurPtr-StartChar;
#define KEYWORD(STR) \
do { \
if (Len == strlen(#STR) && !memcmp(StartChar, #STR, strlen(#STR))) \
return lltok::kw_##STR; \
} while (0)
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KEYWORD(true); KEYWORD(false);
KEYWORD(declare); KEYWORD(define);
KEYWORD(global); KEYWORD(constant);
KEYWORD(private);
KEYWORD(linker_private);
KEYWORD(linker_private_weak);
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KEYWORD(internal);
KEYWORD(available_externally);
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KEYWORD(linkonce);
KEYWORD(linkonce_odr);
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KEYWORD(weak);
KEYWORD(weak_odr);
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KEYWORD(appending);
KEYWORD(dllimport);
KEYWORD(dllexport);
KEYWORD(common);
KEYWORD(default);
KEYWORD(hidden);
KEYWORD(protected);
KEYWORD(unnamed_addr);
KEYWORD(externally_initialized);
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KEYWORD(extern_weak);
KEYWORD(external);
KEYWORD(thread_local);
KEYWORD(localdynamic);
KEYWORD(initialexec);
KEYWORD(localexec);
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KEYWORD(zeroinitializer);
KEYWORD(undef);
KEYWORD(null);
KEYWORD(to);
KEYWORD(tail);
KEYWORD(target);
KEYWORD(triple);
KEYWORD(unwind);
KEYWORD(deplibs); // FIXME: Remove in 4.0.
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KEYWORD(datalayout);
KEYWORD(volatile);
KEYWORD(atomic);
KEYWORD(unordered);
KEYWORD(monotonic);
KEYWORD(acquire);
KEYWORD(release);
KEYWORD(acq_rel);
KEYWORD(seq_cst);
KEYWORD(singlethread);
KEYWORD(nnan);
KEYWORD(ninf);
KEYWORD(nsz);
KEYWORD(arcp);
KEYWORD(fast);
KEYWORD(nuw);
KEYWORD(nsw);
KEYWORD(exact);
KEYWORD(inbounds);
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KEYWORD(align);
KEYWORD(addrspace);
KEYWORD(section);
KEYWORD(alias);
KEYWORD(module);
KEYWORD(asm);
KEYWORD(sideeffect);
KEYWORD(alignstack);
KEYWORD(inteldialect);
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KEYWORD(gc);
KEYWORD(prefix);
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KEYWORD(ccc);
KEYWORD(fastcc);
KEYWORD(coldcc);
KEYWORD(x86_stdcallcc);
KEYWORD(x86_fastcallcc);
KEYWORD(x86_thiscallcc);
KEYWORD(x86_cdeclmethodcc);
KEYWORD(arm_apcscc);
KEYWORD(arm_aapcscc);
KEYWORD(arm_aapcs_vfpcc);
KEYWORD(msp430_intrcc);
KEYWORD(ptx_kernel);
KEYWORD(ptx_device);
KEYWORD(spir_kernel);
KEYWORD(spir_func);
KEYWORD(intel_ocl_bicc);
KEYWORD(x86_64_sysvcc);
KEYWORD(x86_64_win64cc);
KEYWORD(webkit_jscc);
KEYWORD(anyregcc);
KEYWORD(preserve_mostcc);
KEYWORD(preserve_allcc);
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KEYWORD(cc);
KEYWORD(c);
KEYWORD(attributes);
KEYWORD(alwaysinline);
KEYWORD(builtin);
KEYWORD(byval);
KEYWORD(inalloca);
KEYWORD(cold);
KEYWORD(inlinehint);
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KEYWORD(inreg);
KEYWORD(minsize);
KEYWORD(naked);
KEYWORD(nest);
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KEYWORD(noalias);
KEYWORD(nobuiltin);
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KEYWORD(nocapture);
KEYWORD(noduplicate);
KEYWORD(noimplicitfloat);
KEYWORD(noinline);
KEYWORD(nonlazybind);
KEYWORD(noredzone);
KEYWORD(noreturn);
KEYWORD(nounwind);
KEYWORD(optnone);
KEYWORD(optsize);
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KEYWORD(readnone);
KEYWORD(readonly);
KEYWORD(returned);
KEYWORD(returns_twice);
KEYWORD(signext);
KEYWORD(sret);
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KEYWORD(ssp);
KEYWORD(sspreq);
KEYWORD(sspstrong);
KEYWORD(sanitize_address);
KEYWORD(sanitize_thread);
KEYWORD(sanitize_memory);
KEYWORD(uwtable);
KEYWORD(zeroext);
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KEYWORD(type);
KEYWORD(opaque);
KEYWORD(eq); KEYWORD(ne); KEYWORD(slt); KEYWORD(sgt); KEYWORD(sle);
KEYWORD(sge); KEYWORD(ult); KEYWORD(ugt); KEYWORD(ule); KEYWORD(uge);
KEYWORD(oeq); KEYWORD(one); KEYWORD(olt); KEYWORD(ogt); KEYWORD(ole);
KEYWORD(oge); KEYWORD(ord); KEYWORD(uno); KEYWORD(ueq); KEYWORD(une);
KEYWORD(xchg); KEYWORD(nand); KEYWORD(max); KEYWORD(min); KEYWORD(umax);
KEYWORD(umin);
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KEYWORD(x);
KEYWORD(blockaddress);
KEYWORD(personality);
KEYWORD(cleanup);
KEYWORD(catch);
KEYWORD(filter);
#undef KEYWORD
// Keywords for types.
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#define TYPEKEYWORD(STR, LLVMTY) \
if (Len == strlen(STR) && !memcmp(StartChar, STR, strlen(STR))) { \
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TyVal = LLVMTY; return lltok::Type; }
TYPEKEYWORD("void", Type::getVoidTy(Context));
TYPEKEYWORD("half", Type::getHalfTy(Context));
TYPEKEYWORD("float", Type::getFloatTy(Context));
TYPEKEYWORD("double", Type::getDoubleTy(Context));
TYPEKEYWORD("x86_fp80", Type::getX86_FP80Ty(Context));
TYPEKEYWORD("fp128", Type::getFP128Ty(Context));
TYPEKEYWORD("ppc_fp128", Type::getPPC_FP128Ty(Context));
TYPEKEYWORD("label", Type::getLabelTy(Context));
TYPEKEYWORD("metadata", Type::getMetadataTy(Context));
TYPEKEYWORD("x86_mmx", Type::getX86_MMXTy(Context));
#undef TYPEKEYWORD
// Keywords for instructions.
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#define INSTKEYWORD(STR, Enum) \
if (Len == strlen(#STR) && !memcmp(StartChar, #STR, strlen(#STR))) { \
UIntVal = Instruction::Enum; return lltok::kw_##STR; }
INSTKEYWORD(add, Add); INSTKEYWORD(fadd, FAdd);
INSTKEYWORD(sub, Sub); INSTKEYWORD(fsub, FSub);
INSTKEYWORD(mul, Mul); INSTKEYWORD(fmul, FMul);
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INSTKEYWORD(udiv, UDiv); INSTKEYWORD(sdiv, SDiv); INSTKEYWORD(fdiv, FDiv);
INSTKEYWORD(urem, URem); INSTKEYWORD(srem, SRem); INSTKEYWORD(frem, FRem);
INSTKEYWORD(shl, Shl); INSTKEYWORD(lshr, LShr); INSTKEYWORD(ashr, AShr);
INSTKEYWORD(and, And); INSTKEYWORD(or, Or); INSTKEYWORD(xor, Xor);
INSTKEYWORD(icmp, ICmp); INSTKEYWORD(fcmp, FCmp);
INSTKEYWORD(phi, PHI);
INSTKEYWORD(call, Call);
INSTKEYWORD(trunc, Trunc);
INSTKEYWORD(zext, ZExt);
INSTKEYWORD(sext, SExt);
INSTKEYWORD(fptrunc, FPTrunc);
INSTKEYWORD(fpext, FPExt);
INSTKEYWORD(uitofp, UIToFP);
INSTKEYWORD(sitofp, SIToFP);
INSTKEYWORD(fptoui, FPToUI);
INSTKEYWORD(fptosi, FPToSI);
INSTKEYWORD(inttoptr, IntToPtr);
INSTKEYWORD(ptrtoint, PtrToInt);
INSTKEYWORD(bitcast, BitCast);
INSTKEYWORD(addrspacecast, AddrSpaceCast);
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INSTKEYWORD(select, Select);
INSTKEYWORD(va_arg, VAArg);
INSTKEYWORD(ret, Ret);
INSTKEYWORD(br, Br);
INSTKEYWORD(switch, Switch);
INSTKEYWORD(indirectbr, IndirectBr);
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INSTKEYWORD(invoke, Invoke);
INSTKEYWORD(resume, Resume);
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INSTKEYWORD(unreachable, Unreachable);
INSTKEYWORD(alloca, Alloca);
INSTKEYWORD(load, Load);
INSTKEYWORD(store, Store);
INSTKEYWORD(cmpxchg, AtomicCmpXchg);
INSTKEYWORD(atomicrmw, AtomicRMW);
INSTKEYWORD(fence, Fence);
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INSTKEYWORD(getelementptr, GetElementPtr);
INSTKEYWORD(extractelement, ExtractElement);
INSTKEYWORD(insertelement, InsertElement);
INSTKEYWORD(shufflevector, ShuffleVector);
INSTKEYWORD(extractvalue, ExtractValue);
INSTKEYWORD(insertvalue, InsertValue);
INSTKEYWORD(landingpad, LandingPad);
#undef INSTKEYWORD
// Check for [us]0x[0-9A-Fa-f]+ which are Hexadecimal constant generated by
// the CFE to avoid forcing it to deal with 64-bit numbers.
if ((TokStart[0] == 'u' || TokStart[0] == 's') &&
TokStart[1] == '0' && TokStart[2] == 'x' &&
isxdigit(static_cast<unsigned char>(TokStart[3]))) {
int len = CurPtr-TokStart-3;
uint32_t bits = len * 4;
APInt Tmp(bits, StringRef(TokStart+3, len), 16);
uint32_t activeBits = Tmp.getActiveBits();
if (activeBits > 0 && activeBits < bits)
Tmp = Tmp.trunc(activeBits);
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APSIntVal = APSInt(Tmp, TokStart[0] == 'u');
return lltok::APSInt;
}
// If this is "cc1234", return this as just "cc".
if (TokStart[0] == 'c' && TokStart[1] == 'c') {
CurPtr = TokStart+2;
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return lltok::kw_cc;
}
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// Finally, if this isn't known, return an error.
CurPtr = TokStart+1;
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return lltok::Error;
}
/// Lex0x: Handle productions that start with 0x, knowing that it matches and
/// that this is not a label:
/// HexFPConstant 0x[0-9A-Fa-f]+
/// HexFP80Constant 0xK[0-9A-Fa-f]+
/// HexFP128Constant 0xL[0-9A-Fa-f]+
/// HexPPC128Constant 0xM[0-9A-Fa-f]+
/// HexHalfConstant 0xH[0-9A-Fa-f]+
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lltok::Kind LLLexer::Lex0x() {
CurPtr = TokStart + 2;
char Kind;
if ((CurPtr[0] >= 'K' && CurPtr[0] <= 'M') || CurPtr[0] == 'H') {
Kind = *CurPtr++;
} else {
Kind = 'J';
}
if (!isxdigit(static_cast<unsigned char>(CurPtr[0]))) {
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// Bad token, return it as an error.
CurPtr = TokStart+1;
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return lltok::Error;
}
while (isxdigit(static_cast<unsigned char>(CurPtr[0])))
++CurPtr;
if (Kind == 'J') {
// HexFPConstant - Floating point constant represented in IEEE format as a
// hexadecimal number for when exponential notation is not precise enough.
// Half, Float, and double only.
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APFloatVal = APFloat(BitsToDouble(HexIntToVal(TokStart+2, CurPtr)));
return lltok::APFloat;
}
uint64_t Pair[2];
switch (Kind) {
default: llvm_unreachable("Unknown kind!");
case 'K':
// F80HexFPConstant - x87 long double in hexadecimal format (10 bytes)
FP80HexToIntPair(TokStart+3, CurPtr, Pair);
APFloatVal = APFloat(APFloat::x87DoubleExtended, APInt(80, Pair));
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return lltok::APFloat;
case 'L':
// F128HexFPConstant - IEEE 128-bit in hexadecimal format (16 bytes)
HexToIntPair(TokStart+3, CurPtr, Pair);
APFloatVal = APFloat(APFloat::IEEEquad, APInt(128, Pair));
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return lltok::APFloat;
case 'M':
// PPC128HexFPConstant - PowerPC 128-bit in hexadecimal format (16 bytes)
HexToIntPair(TokStart+3, CurPtr, Pair);
APFloatVal = APFloat(APFloat::PPCDoubleDouble, APInt(128, Pair));
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return lltok::APFloat;
case 'H':
APFloatVal = APFloat(APFloat::IEEEhalf,
APInt(16,HexIntToVal(TokStart+3, CurPtr)));
return lltok::APFloat;
}
}
/// LexIdentifier: Handle several related productions:
/// Label [-a-zA-Z$._0-9]+:
/// NInteger -[0-9]+
/// FPConstant [-+]?[0-9]+[.][0-9]*([eE][-+]?[0-9]+)?
/// PInteger [0-9]+
/// HexFPConstant 0x[0-9A-Fa-f]+
/// HexFP80Constant 0xK[0-9A-Fa-f]+
/// HexFP128Constant 0xL[0-9A-Fa-f]+
/// HexPPC128Constant 0xM[0-9A-Fa-f]+
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lltok::Kind LLLexer::LexDigitOrNegative() {
// If the letter after the negative is not a number, this is probably a label.
if (!isdigit(static_cast<unsigned char>(TokStart[0])) &&
!isdigit(static_cast<unsigned char>(CurPtr[0]))) {
// Okay, this is not a number after the -, it's probably a label.
if (const char *End = isLabelTail(CurPtr)) {
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StrVal.assign(TokStart, End-1);
CurPtr = End;
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return lltok::LabelStr;
}
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return lltok::Error;
}
// At this point, it is either a label, int or fp constant.
// Skip digits, we have at least one.
for (; isdigit(static_cast<unsigned char>(CurPtr[0])); ++CurPtr)
/*empty*/;
// Check to see if this really is a label afterall, e.g. "-1:".
if (isLabelChar(CurPtr[0]) || CurPtr[0] == ':') {
if (const char *End = isLabelTail(CurPtr)) {
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StrVal.assign(TokStart, End-1);
CurPtr = End;
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return lltok::LabelStr;
}
}
// If the next character is a '.', then it is a fp value, otherwise its
// integer.
if (CurPtr[0] != '.') {
if (TokStart[0] == '0' && TokStart[1] == 'x')
return Lex0x();
unsigned Len = CurPtr-TokStart;
uint32_t numBits = ((Len * 64) / 19) + 2;
APInt Tmp(numBits, StringRef(TokStart, Len), 10);
if (TokStart[0] == '-') {
uint32_t minBits = Tmp.getMinSignedBits();
if (minBits > 0 && minBits < numBits)
Tmp = Tmp.trunc(minBits);
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APSIntVal = APSInt(Tmp, false);
} else {
uint32_t activeBits = Tmp.getActiveBits();
if (activeBits > 0 && activeBits < numBits)
Tmp = Tmp.trunc(activeBits);
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APSIntVal = APSInt(Tmp, true);
}
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return lltok::APSInt;
}
++CurPtr;
// Skip over [0-9]*([eE][-+]?[0-9]+)?
while (isdigit(static_cast<unsigned char>(CurPtr[0]))) ++CurPtr;
if (CurPtr[0] == 'e' || CurPtr[0] == 'E') {
if (isdigit(static_cast<unsigned char>(CurPtr[1])) ||
((CurPtr[1] == '-' || CurPtr[1] == '+') &&
isdigit(static_cast<unsigned char>(CurPtr[2])))) {
CurPtr += 2;
while (isdigit(static_cast<unsigned char>(CurPtr[0]))) ++CurPtr;
}
}
APFloatVal = APFloat(std::atof(TokStart));
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return lltok::APFloat;
}
/// FPConstant [-+]?[0-9]+[.][0-9]*([eE][-+]?[0-9]+)?
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lltok::Kind LLLexer::LexPositive() {
// If the letter after the negative is a number, this is probably not a
// label.
if (!isdigit(static_cast<unsigned char>(CurPtr[0])))
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return lltok::Error;
// Skip digits.
for (++CurPtr; isdigit(static_cast<unsigned char>(CurPtr[0])); ++CurPtr)
/*empty*/;
// At this point, we need a '.'.
if (CurPtr[0] != '.') {
CurPtr = TokStart+1;
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return lltok::Error;
}
++CurPtr;
// Skip over [0-9]*([eE][-+]?[0-9]+)?
while (isdigit(static_cast<unsigned char>(CurPtr[0]))) ++CurPtr;
if (CurPtr[0] == 'e' || CurPtr[0] == 'E') {
if (isdigit(static_cast<unsigned char>(CurPtr[1])) ||
((CurPtr[1] == '-' || CurPtr[1] == '+') &&
isdigit(static_cast<unsigned char>(CurPtr[2])))) {
CurPtr += 2;
while (isdigit(static_cast<unsigned char>(CurPtr[0]))) ++CurPtr;
}
}
APFloatVal = APFloat(std::atof(TokStart));
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return lltok::APFloat;
}