std::unique_ptr<X86Operand> ParseIntelOperator(unsigned OpKind);
std::unique_ptr<X86Operand>
ParseIntelSegmentOverride(unsigned SegReg, SMLoc Start, unsigned Size);
- std::unique_ptr<X86Operand>
- ParseIntelMemOperand(int64_t ImmDisp, SMLoc StartLoc, unsigned Size);
std::unique_ptr<X86Operand> ParseRoundingModeOp(SMLoc Start, SMLoc End);
bool ParseIntelExpression(IntelExprStateMachine &SM, SMLoc &End);
- std::unique_ptr<X86Operand> ParseIntelBracExpression(unsigned SegReg,
- SMLoc Start,
- int64_t ImmDisp,
- unsigned Size);
+ std::unique_ptr<X86Operand>
+ ParseIntelBracExpression(unsigned SegReg, SMLoc Start, int64_t ImmDisp,
+ bool isSymbol, unsigned Size);
bool ParseIntelIdentifier(const MCExpr *&Val, StringRef &Identifier,
InlineAsmIdentifierInfo &Info,
bool IsUnevaluatedOperand, SMLoc &End);
// The period in the dot operator (e.g., [ebx].foo.bar) is parsed as an
// identifier. Don't try an parse it as a register.
- if (Tok.getString().startswith("."))
+ if (PrevTK != AsmToken::Error && Tok.getString().startswith("."))
break;
// If we're parsing an immediate expression, we don't expect a '['.
std::unique_ptr<X86Operand>
X86AsmParser::ParseIntelBracExpression(unsigned SegReg, SMLoc Start,
- int64_t ImmDisp, unsigned Size) {
+ int64_t ImmDisp, bool isSymbol,
+ unsigned Size) {
MCAsmParser &Parser = getParser();
const AsmToken &Tok = Parser.getTok();
SMLoc BracLoc = Tok.getLoc(), End = Tok.getEndLoc();
Disp = NewDisp;
}
+ if (isSymbol) {
+ if (SM.getSym()) {
+ Error(Start, "cannot use more than one symbol in memory operand");
+ return nullptr;
+ }
+ if (SM.getBaseReg()) {
+ Error(Start, "cannot use base register with variable reference");
+ return nullptr;
+ }
+ if (SM.getIndexReg()) {
+ Error(Start, "cannot use index register with variable reference");
+ return nullptr;
+ }
+ }
+
int BaseReg = SM.getBaseReg();
int IndexReg = SM.getIndexReg();
int Scale = SM.getScale();
}
if (getLexer().is(AsmToken::LBrac))
- return ParseIntelBracExpression(SegReg, Start, ImmDisp, Size);
+ return ParseIntelBracExpression(SegReg, Start, ImmDisp, false, Size);
const MCExpr *Val;
SMLoc End;
}
return ErrorOperand(Tok.getLoc(), "unknown token in expression");
}
-/// ParseIntelMemOperand - Parse intel style memory operand.
-std::unique_ptr<X86Operand> X86AsmParser::ParseIntelMemOperand(int64_t ImmDisp,
- SMLoc Start,
- unsigned Size) {
- MCAsmParser &Parser = getParser();
- const AsmToken &Tok = Parser.getTok();
- SMLoc End;
-
- // Parse ImmDisp [ BaseReg + Scale*IndexReg + Disp ].
- if (getLexer().is(AsmToken::LBrac))
- return ParseIntelBracExpression(/*SegReg=*/0, Start, ImmDisp, Size);
- assert(ImmDisp == 0);
-
- const MCExpr *Val;
- if (!isParsingInlineAsm()) {
- if (getParser().parsePrimaryExpr(Val, End))
- return ErrorOperand(Tok.getLoc(), "unknown token in expression");
-
- return X86Operand::CreateMem(getPointerWidth(), Val, Start, End, Size);
- }
-
- InlineAsmIdentifierInfo Info;
- StringRef Identifier = Tok.getString();
- if (ParseIntelIdentifier(Val, Identifier, Info,
- /*Unevaluated=*/false, End))
- return nullptr;
-
- if (!getLexer().is(AsmToken::LBrac))
- return CreateMemForInlineAsm(/*SegReg=*/0, Val, /*BaseReg=*/0, /*IndexReg=*/0,
- /*Scale=*/1, Start, End, Size, Identifier, Info);
-
- Parser.Lex(); // Eat '['
-
- // Parse Identifier [ ImmDisp ]
- IntelExprStateMachine SM(/*ImmDisp=*/0, /*StopOnLBrac=*/true,
- /*AddImmPrefix=*/false);
- if (ParseIntelExpression(SM, End))
- return nullptr;
-
- if (SM.getSym()) {
- Error(Start, "cannot use more than one symbol in memory operand");
- return nullptr;
- }
- if (SM.getBaseReg()) {
- Error(Start, "cannot use base register with variable reference");
- return nullptr;
- }
- if (SM.getIndexReg()) {
- Error(Start, "cannot use index register with variable reference");
- return nullptr;
- }
-
- const MCExpr *Disp = MCConstantExpr::create(SM.getImm(), getContext());
- // BaseReg is non-zero to avoid assertions. In the context of inline asm,
- // we're pointing to a local variable in memory, so the base register is
- // really the frame or stack pointer.
- return X86Operand::CreateMem(getPointerWidth(), /*SegReg=*/0, Disp,
- /*BaseReg=*/1, /*IndexReg=*/0, /*Scale=*/1,
- Start, End, Size, Identifier, Info.OpDecl);
-}
/// Parse the '.' operator.
bool X86AsmParser::ParseIntelDotOperator(const MCExpr *Disp,
Parser.Lex(); // Eat ptr.
PtrInOperand = true;
}
- Start = Tok.getLoc();
-
- // Immediate.
- if (getLexer().is(AsmToken::Integer) || getLexer().is(AsmToken::Minus) ||
- getLexer().is(AsmToken::Tilde) || getLexer().is(AsmToken::LParen)) {
- AsmToken StartTok = Tok;
- IntelExprStateMachine SM(/*Imm=*/0, /*StopOnLBrac=*/true,
- /*AddImmPrefix=*/false);
- if (ParseIntelExpression(SM, End))
- return nullptr;
-
- int64_t Imm = SM.getImm();
- if (isParsingInlineAsm()) {
- unsigned Len = Tok.getLoc().getPointer() - Start.getPointer();
- if (StartTok.getString().size() == Len)
- // Just add a prefix if this wasn't a complex immediate expression.
- InstInfo->AsmRewrites->emplace_back(AOK_ImmPrefix, Start);
- else
- // Otherwise, rewrite the complex expression as a single immediate.
- InstInfo->AsmRewrites->emplace_back(AOK_Imm, Start, Len, Imm);
- }
-
- if (getLexer().isNot(AsmToken::LBrac)) {
- // If a directional label (ie. 1f or 2b) was parsed above from
- // ParseIntelExpression() then SM.getSym() was set to a pointer to
- // to the MCExpr with the directional local symbol and this is a
- // memory operand not an immediate operand.
- if (SM.getSym())
- return X86Operand::CreateMem(getPointerWidth(), SM.getSym(), Start, End,
- Size);
-
- const MCExpr *ImmExpr = MCConstantExpr::create(Imm, getContext());
- return X86Operand::CreateImm(ImmExpr, Start, End);
- }
-
- // Only positive immediates are valid.
- if (Imm < 0)
- return ErrorOperand(Start, "expected a positive immediate displacement "
- "before bracketed expr.");
- // Parse ImmDisp [ BaseReg + Scale*IndexReg + Disp ].
- return ParseIntelMemOperand(Imm, Start, Size);
- }
+ Start = Tok.getLoc();
// rounding mode token
if (getSTI().getFeatureBits()[X86::FeatureAVX512] &&
// Register.
unsigned RegNo = 0;
- if (!ParseRegister(RegNo, Start, End)) {
+ if (getLexer().is(AsmToken::Identifier) &&
+ !ParseRegister(RegNo, Start, End)) {
// If this is a segment register followed by a ':', then this is the start
// of a segment override, otherwise this is a normal register reference.
// In case it is a normal register and there is ptr in the operand this
}
return X86Operand::CreateReg(RegNo, Start, End);
}
-
return ParseIntelSegmentOverride(/*SegReg=*/RegNo, Start, Size);
}
- // Memory operand.
- return ParseIntelMemOperand(/*Disp=*/0, Start, Size);
+ // Immediates and Memory
+
+ // Parse [ BaseReg + Scale*IndexReg + Disp ].
+ if (getLexer().is(AsmToken::LBrac))
+ return ParseIntelBracExpression(/*SegReg=*/0, Start, /*ImmDisp=*/0, false,
+ Size);
+
+ AsmToken StartTok = Tok;
+ IntelExprStateMachine SM(/*Imm=*/0, /*StopOnLBrac=*/true,
+ /*AddImmPrefix=*/false);
+ if (ParseIntelExpression(SM, End))
+ return nullptr;
+
+ bool isSymbol = SM.getSym() && SM.getSym()->getKind() != MCExpr::Constant;
+ int64_t Imm = SM.getImm();
+ if (SM.getSym() && SM.getSym()->getKind() == MCExpr::Constant)
+ SM.getSym()->evaluateAsAbsolute(Imm);
+
+ if (StartTok.isNot(AsmToken::Identifier) &&
+ StartTok.isNot(AsmToken::String) && isParsingInlineAsm()) {
+ unsigned Len = Tok.getLoc().getPointer() - Start.getPointer();
+ if (StartTok.getString().size() == Len)
+ // Just add a prefix if this wasn't a complex immediate expression.
+ InstInfo->AsmRewrites->emplace_back(AOK_ImmPrefix, Start);
+ else
+ // Otherwise, rewrite the complex expression as a single immediate.
+ InstInfo->AsmRewrites->emplace_back(AOK_Imm, Start, Len, Imm);
+ }
+
+ if (getLexer().isNot(AsmToken::LBrac)) {
+ // If a directional label (ie. 1f or 2b) was parsed above from
+ // ParseIntelExpression() then SM.getSym() was set to a pointer to
+ // to the MCExpr with the directional local symbol and this is a
+ // memory operand not an immediate operand.
+ if (isSymbol) {
+ if (isParsingInlineAsm())
+ return CreateMemForInlineAsm(/*SegReg=*/0, SM.getSym(), /*BaseReg=*/0,
+ /*IndexReg=*/0,
+ /*Scale=*/1, Start, End, Size,
+ SM.getSymName(), SM.getIdentifierInfo());
+ return X86Operand::CreateMem(getPointerWidth(), SM.getSym(), Start, End,
+ Size);
+ }
+
+ const MCExpr *ImmExpr = MCConstantExpr::create(Imm, getContext());
+ return X86Operand::CreateImm(ImmExpr, Start, End);
+ }
+
+ // Only positive immediates are valid.
+ if (Imm < 0)
+ return ErrorOperand(Start, "expected a positive immediate displacement "
+ "before bracketed expr.");
+
+ return ParseIntelBracExpression(/*SegReg=*/0, Start, Imm, isSymbol, Size);
}
std::unique_ptr<X86Operand> X86AsmParser::ParseATTOperand() {
SMLoc Start = Parser.getTok().getLoc(), End;
if (getSTI().getFeatureBits()[X86::FeatureAVX512])
return ParseRoundingModeOp(Start, End);
- return ErrorOperand(Start, "unknown token in expression");
+ return ErrorOperand(Start, "Unexpected '{' in expression");
}
}
}