for (DecoderSet::const_iterator I = Decoders.begin(), E = Decoders.end();
I != E; ++I, ++Index) {
OS.indent(Indentation) << "case " << Index << ":\n";
- OS << *I << "\n";
+ OS << *I;
OS.indent(Indentation+2) << "return S;\n";
}
OS.indent(Indentation) << "}\n";
if (OpInfo.numFields() == 1) {
OperandInfo::const_iterator OI = OpInfo.begin();
- o.indent(Indentation) << " tmp = fieldFromInstruction"
+ o.indent(Indentation) << "tmp = fieldFromInstruction"
<< "(insn, " << OI->Base << ", " << OI->Width
<< ");\n";
} else {
- o.indent(Indentation) << " tmp = 0;\n";
+ o.indent(Indentation) << "tmp = 0;\n";
for (OperandInfo::const_iterator OI = OpInfo.begin(), OE = OpInfo.end();
OI != OE; ++OI) {
- o.indent(Indentation) << " tmp |= (fieldFromInstruction"
+ o.indent(Indentation) << "tmp |= (fieldFromInstruction"
<< "(insn, " << OI->Base << ", " << OI->Width
<< ") << " << OI->Offset << ");\n";
}
}
if (Decoder != "")
- o.indent(Indentation) << " " << Emitter->GuardPrefix << Decoder
+ o.indent(Indentation) << Emitter->GuardPrefix << Decoder
<< "(MI, tmp, Address, Decoder)"
<< Emitter->GuardPostfix << "\n";
else
- o.indent(Indentation) << " MI.addOperand(MCOperand::CreateImm(tmp));\n";
+ o.indent(Indentation) << "MI.addOperand(MCOperand::CreateImm(tmp));\n";
}
I = InsnOperands.begin(), E = InsnOperands.end(); I != E; ++I) {
// If a custom instruction decoder was specified, use that.
if (I->numFields() == 0 && I->Decoder.size()) {
- OS.indent(Indentation) << " " << Emitter->GuardPrefix << I->Decoder
+ OS.indent(Indentation) << Emitter->GuardPrefix << I->Decoder
<< "(MI, insn, Address, Decoder)"
<< Emitter->GuardPostfix << "\n";
break;
// FIXME: emitDecoder() function can take a buffer directly rather than
// a stream.
raw_svector_ostream S(Decoder);
- unsigned I = 0;
+ unsigned I = 4;
emitDecoder(S, I, Opc);
S.flush();