This patch represents Mips utilization of r186388 code that alows asm matcher to emit mnemonics contain '.' characters. This makes asm parser code simpler and more efficient.

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@186397 91177308-0d34-0410-b5e6-96231b3b80d8
This commit is contained in:
Vladimir Medic 2013-07-16 10:07:14 +00:00
parent 649c7fc474
commit 0884836277
4 changed files with 238 additions and 266 deletions

View File

@ -78,15 +78,13 @@ class MipsAsmParser : public MCTargetAsmParser {
SMLoc NameLoc,
SmallVectorImpl<MCParsedAsmOperand*> &Operands);
bool parseMathOperation(StringRef Name, SMLoc NameLoc,
SmallVectorImpl<MCParsedAsmOperand*> &Operands);
bool ParseDirective(AsmToken DirectiveID);
MipsAsmParser::OperandMatchResultTy
parseRegs(SmallVectorImpl<MCParsedAsmOperand*> &Operands,
int RegKind);
MipsAsmParser::OperandMatchResultTy
MipsAsmParser::OperandMatchResultTy
parseMemOperand(SmallVectorImpl<MCParsedAsmOperand*> &Operands);
MipsAsmParser::OperandMatchResultTy
@ -1274,6 +1272,7 @@ MipsAsmParser::parseRegs(SmallVectorImpl<MCParsedAsmOperand*> &Operands,
}
return MatchOperand_NoMatch;
}
MipsAsmParser::OperandMatchResultTy
MipsAsmParser::parseCPU64Regs(SmallVectorImpl<MCParsedAsmOperand*> &Operands) {
@ -1335,9 +1334,9 @@ bool MipsAsmParser::searchSymbolAlias(
APInt IntVal(32, -1);
if (!DefSymbol.substr(1).getAsInteger(10, IntVal))
RegNum = matchRegisterByNumber(IntVal.getZExtValue(),
isMips64()
? Mips::CPU64RegsRegClassID
: Mips::CPURegsRegClassID);
isMips64()
? Mips::CPU64RegsRegClassID
: Mips::CPURegsRegClassID);
else {
// Lookup for the register with the corresponding name.
switch (Kind) {
@ -1368,7 +1367,7 @@ bool MipsAsmParser::searchSymbolAlias(
Parser.Lex();
const MCConstantExpr *Const = static_cast<const MCConstantExpr*>(Expr);
MipsOperand *op = MipsOperand::CreateImm(Const, S,
Parser.getTok().getLoc());
Parser.getTok().getLoc());
Operands.push_back(op);
return true;
}
@ -1492,130 +1491,17 @@ MCSymbolRefExpr::VariantKind MipsAsmParser::getVariantKind(StringRef Symbol) {
return VK;
}
// Converts condition string to immediate operand value.
static int ConvertCcString(StringRef CondString) {
int CC = StringSwitch<unsigned>(CondString)
.Case(".f", 0)
.Case(".un", 1)
.Case(".eq", 2)
.Case(".ueq", 3)
.Case(".olt", 4)
.Case(".ult", 5)
.Case(".ole", 6)
.Case(".ule", 7)
.Case(".sf", 8)
.Case(".ngle", 9)
.Case(".seq", 10)
.Case(".ngl", 11)
.Case(".lt", 12)
.Case(".nge", 13)
.Case(".le", 14)
.Case(".ngt", 15)
.Default(-1);
return CC;
}
bool MipsAsmParser::
parseMathOperation(StringRef Name, SMLoc NameLoc,
SmallVectorImpl<MCParsedAsmOperand*> &Operands) {
// Split the format.
size_t Start = Name.find('.'), Next = Name.rfind('.');
StringRef Format1 = Name.slice(Start, Next);
// Add the first format to the operands.
Operands.push_back(MipsOperand::CreateToken(Format1, NameLoc));
// Now for the second format.
StringRef Format2 = Name.slice(Next, StringRef::npos);
Operands.push_back(MipsOperand::CreateToken(Format2, NameLoc));
// Set the format for the first register.
setFpFormat(Format1);
// Read the remaining operands.
if (getLexer().isNot(AsmToken::EndOfStatement)) {
// Read the first operand.
if (ParseOperand(Operands, Name)) {
SMLoc Loc = getLexer().getLoc();
Parser.eatToEndOfStatement();
return Error(Loc, "unexpected token in argument list");
}
if (getLexer().isNot(AsmToken::Comma)) {
SMLoc Loc = getLexer().getLoc();
Parser.eatToEndOfStatement();
return Error(Loc, "unexpected token in argument list");
}
Parser.Lex(); // Eat the comma.
// Set the format for the first register
setFpFormat(Format2);
// Parse and remember the operand.
if (ParseOperand(Operands, Name)) {
SMLoc Loc = getLexer().getLoc();
Parser.eatToEndOfStatement();
return Error(Loc, "unexpected token in argument list");
}
}
if (getLexer().isNot(AsmToken::EndOfStatement)) {
SMLoc Loc = getLexer().getLoc();
Parser.eatToEndOfStatement();
return Error(Loc, "unexpected token in argument list");
}
Parser.Lex(); // Consume the EndOfStatement.
return false;
}
bool MipsAsmParser::
ParseInstruction(ParseInstructionInfo &Info, StringRef Name, SMLoc NameLoc,
SmallVectorImpl<MCParsedAsmOperand*> &Operands) {
StringRef Mnemonic;
setDefaultFpFormat();
// Create the leading tokens for the mnemonic, split by '.' characters.
size_t Start = 0, Next = Name.find('.');
Mnemonic = Name.slice(Start, Next);
Operands.push_back(MipsOperand::CreateToken(Mnemonic, NameLoc));
if (Next != StringRef::npos) {
// There is a format token in mnemonic.
size_t Dot = Name.find('.', Next + 1);
StringRef Format = Name.slice(Next, Dot);
if (Dot == StringRef::npos) // Only one '.' in a string, it's a format.
Operands.push_back(MipsOperand::CreateToken(Format, NameLoc));
else {
if (Name.startswith("c.")) {
// Floating point compare, add '.' and immediate represent for cc.
Operands.push_back(MipsOperand::CreateToken(".", NameLoc));
int Cc = ConvertCcString(Format);
if (Cc == -1) {
return Error(NameLoc, "Invalid conditional code");
}
SMLoc E = SMLoc::getFromPointer(
Parser.getTok().getLoc().getPointer() - 1);
Operands.push_back(
MipsOperand::CreateImm(MCConstantExpr::Create(Cc, getContext()),
NameLoc, E));
} else {
// trunc, ceil, floor ...
return parseMathOperation(Name, NameLoc, Operands);
}
// The rest is a format.
Format = Name.slice(Dot, StringRef::npos);
Operands.push_back(MipsOperand::CreateToken(Format, NameLoc));
}
setFpFormat(Format);
}
// First operand in MCInst is instruction mnemonic.
Operands.push_back(MipsOperand::CreateToken(Name, NameLoc));
// Read the remaining operands.
if (getLexer().isNot(AsmToken::EndOfStatement)) {
// Read the first operand.
if (ParseOperand(Operands, Mnemonic)) {
if (ParseOperand(Operands, Name)) {
SMLoc Loc = getLexer().getLoc();
Parser.eatToEndOfStatement();
return Error(Loc, "unexpected token in argument list");
@ -1623,7 +1509,6 @@ ParseInstruction(ParseInstructionInfo &Info, StringRef Name, SMLoc NameLoc,
while (getLexer().is(AsmToken::Comma)) {
Parser.Lex(); // Eat the comma.
// Parse and remember the operand.
if (ParseOperand(Operands, Name)) {
SMLoc Loc = getLexer().getLoc();
@ -1632,13 +1517,11 @@ ParseInstruction(ParseInstructionInfo &Info, StringRef Name, SMLoc NameLoc,
}
}
}
if (getLexer().isNot(AsmToken::EndOfStatement)) {
SMLoc Loc = getLexer().getLoc();
Parser.eatToEndOfStatement();
return Error(Loc, "unexpected token in argument list");
}
Parser.Lex(); // Consume the EndOfStatement.
return false;
}

View File

@ -16,7 +16,7 @@
// MipsISelLowering::EmitInstrWithCustomInserter if target does not have
// conditional move instructions.
// cond:int, data:int
class CMov_I_I_FT<string opstr, RegisterClass CRC, RegisterClass DRC,
class CMov_I_I_FT<string opstr, RegisterOperand CRC, RegisterOperand DRC,
InstrItinClass Itin> :
InstSE<(outs DRC:$rd), (ins DRC:$rs, CRC:$rt, DRC:$F),
!strconcat(opstr, "\t$rd, $rs, $rt"), [], Itin, FrmFR> {
@ -24,7 +24,7 @@ class CMov_I_I_FT<string opstr, RegisterClass CRC, RegisterClass DRC,
}
// cond:int, data:float
class CMov_I_F_FT<string opstr, RegisterClass CRC, RegisterClass DRC,
class CMov_I_F_FT<string opstr, RegisterOperand CRC, RegisterOperand DRC,
InstrItinClass Itin> :
InstSE<(outs DRC:$fd), (ins DRC:$fs, CRC:$rt, DRC:$F),
!strconcat(opstr, "\t$fd, $fs, $rt"), [], Itin, FrmFR> {
@ -32,7 +32,7 @@ class CMov_I_F_FT<string opstr, RegisterClass CRC, RegisterClass DRC,
}
// cond:float, data:int
class CMov_F_I_FT<string opstr, RegisterClass RC, InstrItinClass Itin,
class CMov_F_I_FT<string opstr, RegisterOperand RC, InstrItinClass Itin,
SDPatternOperator OpNode = null_frag> :
InstSE<(outs RC:$rd), (ins RC:$rs, RC:$F),
!strconcat(opstr, "\t$rd, $rs, $$fcc0"),
@ -103,82 +103,84 @@ multiclass MovnPats<RegisterClass CRC, RegisterClass DRC, Instruction MOVNInst,
}
// Instantiation of instructions.
def MOVZ_I_I : CMov_I_I_FT<"movz", CPURegs, CPURegs, NoItinerary>,
def MOVZ_I_I : CMov_I_I_FT<"movz", CPURegsOpnd, CPURegsOpnd, NoItinerary>,
ADD_FM<0, 0xa>;
let Predicates = [HasStdEnc],
DecoderNamespace = "Mips64" in {
def MOVZ_I_I64 : CMov_I_I_FT<"movz", CPURegs, CPU64Regs, NoItinerary>,
ADD_FM<0, 0xa>;
def MOVZ_I64_I : CMov_I_I_FT<"movz", CPU64Regs, CPURegs, NoItinerary>,
ADD_FM<0, 0xa> {
def MOVZ_I_I64 : CMov_I_I_FT<"movz", CPURegsOpnd, CPU64RegsOpnd,
NoItinerary>, ADD_FM<0, 0xa>;
def MOVZ_I64_I : CMov_I_I_FT<"movz", CPU64RegsOpnd, CPURegsOpnd,
NoItinerary>, ADD_FM<0, 0xa> {
let isCodeGenOnly = 1;
}
def MOVZ_I64_I64 : CMov_I_I_FT<"movz", CPU64Regs, CPU64Regs, NoItinerary>,
ADD_FM<0, 0xa> {
def MOVZ_I64_I64 : CMov_I_I_FT<"movz", CPU64RegsOpnd, CPU64RegsOpnd,
NoItinerary>, ADD_FM<0, 0xa> {
let isCodeGenOnly = 1;
}
}
def MOVN_I_I : CMov_I_I_FT<"movn", CPURegs, CPURegs, NoItinerary>,
ADD_FM<0, 0xb>;
def MOVN_I_I : CMov_I_I_FT<"movn", CPURegsOpnd, CPURegsOpnd,
NoItinerary>, ADD_FM<0, 0xb>;
let Predicates = [HasStdEnc],
DecoderNamespace = "Mips64" in {
def MOVN_I_I64 : CMov_I_I_FT<"movn", CPURegs, CPU64Regs, NoItinerary>,
ADD_FM<0, 0xb>;
def MOVN_I64_I : CMov_I_I_FT<"movn", CPU64Regs, CPURegs, NoItinerary>,
ADD_FM<0, 0xb> {
def MOVN_I_I64 : CMov_I_I_FT<"movn", CPURegsOpnd, CPU64RegsOpnd,
NoItinerary>, ADD_FM<0, 0xb>;
def MOVN_I64_I : CMov_I_I_FT<"movn", CPU64RegsOpnd, CPURegsOpnd,
NoItinerary>, ADD_FM<0, 0xb> {
let isCodeGenOnly = 1;
}
def MOVN_I64_I64 : CMov_I_I_FT<"movn", CPU64Regs, CPU64Regs, NoItinerary>,
ADD_FM<0, 0xb> {
def MOVN_I64_I64 : CMov_I_I_FT<"movn", CPU64RegsOpnd, CPU64RegsOpnd,
NoItinerary>, ADD_FM<0, 0xb> {
let isCodeGenOnly = 1;
}
}
def MOVZ_I_S : CMov_I_F_FT<"movz.s", CPURegs, FGR32, IIFmove>,
def MOVZ_I_S : CMov_I_F_FT<"movz.s", CPURegsOpnd, FGR32RegsOpnd, IIFmove>,
CMov_I_F_FM<18, 16>;
def MOVZ_I64_S : CMov_I_F_FT<"movz.s", CPU64Regs, FGR32, IIFmove>,
def MOVZ_I64_S : CMov_I_F_FT<"movz.s", CPU64RegsOpnd, FGR32RegsOpnd, IIFmove>,
CMov_I_F_FM<18, 16>, Requires<[HasMips64, HasStdEnc]> {
let DecoderNamespace = "Mips64";
}
def MOVN_I_S : CMov_I_F_FT<"movn.s", CPURegs, FGR32, IIFmove>,
def MOVN_I_S : CMov_I_F_FT<"movn.s", CPURegsOpnd, FGR32RegsOpnd, IIFmove>,
CMov_I_F_FM<19, 16>;
def MOVN_I64_S : CMov_I_F_FT<"movn.s", CPU64Regs, FGR32, IIFmove>,
def MOVN_I64_S : CMov_I_F_FT<"movn.s", CPU64RegsOpnd, FGR32RegsOpnd, IIFmove>,
CMov_I_F_FM<19, 16>, Requires<[HasMips64, HasStdEnc]> {
let DecoderNamespace = "Mips64";
}
let Predicates = [NotFP64bit, HasStdEnc] in {
def MOVZ_I_D32 : CMov_I_F_FT<"movz.d", CPURegs, AFGR64, IIFmove>,
def MOVZ_I_D32 : CMov_I_F_FT<"movz.d", CPURegsOpnd, AFGR64RegsOpnd, IIFmove>,
CMov_I_F_FM<18, 17>;
def MOVN_I_D32 : CMov_I_F_FT<"movn.d", CPURegs, AFGR64, IIFmove>,
def MOVN_I_D32 : CMov_I_F_FT<"movn.d", CPURegsOpnd, AFGR64RegsOpnd, IIFmove>,
CMov_I_F_FM<19, 17>;
}
let Predicates = [IsFP64bit, HasStdEnc],
DecoderNamespace = "Mips64" in {
def MOVZ_I_D64 : CMov_I_F_FT<"movz.d", CPURegs, FGR64, IIFmove>,
def MOVZ_I_D64 : CMov_I_F_FT<"movz.d", CPURegsOpnd, FGR64RegsOpnd, IIFmove>,
CMov_I_F_FM<18, 17>;
def MOVZ_I64_D64 : CMov_I_F_FT<"movz.d", CPU64Regs, FGR64, IIFmove>,
CMov_I_F_FM<18, 17> {
def MOVZ_I64_D64 : CMov_I_F_FT<"movz.d", CPU64RegsOpnd, FGR64RegsOpnd,
IIFmove>, CMov_I_F_FM<18, 17> {
let isCodeGenOnly = 1;
}
def MOVN_I_D64 : CMov_I_F_FT<"movn.d", CPURegs, FGR64, IIFmove>,
def MOVN_I_D64 : CMov_I_F_FT<"movn.d", CPURegsOpnd, FGR64RegsOpnd, IIFmove>,
CMov_I_F_FM<19, 17>;
def MOVN_I64_D64 : CMov_I_F_FT<"movn.d", CPU64Regs, FGR64, IIFmove>,
CMov_I_F_FM<19, 17> {
def MOVN_I64_D64 : CMov_I_F_FT<"movn.d", CPU64RegsOpnd, FGR64RegsOpnd,
IIFmove>, CMov_I_F_FM<19, 17> {
let isCodeGenOnly = 1;
}
}
def MOVT_I : CMov_F_I_FT<"movt", CPURegs, IIAlu, MipsCMovFP_T>, CMov_F_I_FM<1>;
def MOVT_I64 : CMov_F_I_FT<"movt", CPU64Regs, IIAlu, MipsCMovFP_T>,
def MOVT_I : CMov_F_I_FT<"movt", CPURegsOpnd, IIAlu, MipsCMovFP_T>,
CMov_F_I_FM<1>;
def MOVT_I64 : CMov_F_I_FT<"movt", CPU64RegsOpnd, IIAlu, MipsCMovFP_T>,
CMov_F_I_FM<1>, Requires<[HasMips64, HasStdEnc]> {
let DecoderNamespace = "Mips64";
}
def MOVF_I : CMov_F_I_FT<"movf", CPURegs, IIAlu, MipsCMovFP_F>, CMov_F_I_FM<0>;
def MOVF_I64 : CMov_F_I_FT<"movf", CPU64Regs, IIAlu, MipsCMovFP_F>,
def MOVF_I : CMov_F_I_FT<"movf", CPURegsOpnd, IIAlu, MipsCMovFP_F>,
CMov_F_I_FM<0>;
def MOVF_I64 : CMov_F_I_FT<"movf", CPU64RegsOpnd, IIAlu, MipsCMovFP_F>,
CMov_F_I_FM<0>, Requires<[HasMips64, HasStdEnc]> {
let DecoderNamespace = "Mips64";
}

View File

@ -88,7 +88,7 @@ def fpimm0neg : PatLeaf<(fpimm), [{
// Only S32 and D32 are supported right now.
//===----------------------------------------------------------------------===//
class ADDS_FT<string opstr, RegisterClass RC, InstrItinClass Itin, bit IsComm,
class ADDS_FT<string opstr, RegisterOperand RC, InstrItinClass Itin, bit IsComm,
SDPatternOperator OpNode= null_frag> :
InstSE<(outs RC:$fd), (ins RC:$fs, RC:$ft),
!strconcat(opstr, "\t$fd, $fs, $ft"),
@ -98,15 +98,15 @@ class ADDS_FT<string opstr, RegisterClass RC, InstrItinClass Itin, bit IsComm,
multiclass ADDS_M<string opstr, InstrItinClass Itin, bit IsComm,
SDPatternOperator OpNode = null_frag> {
def _D32 : ADDS_FT<opstr, AFGR64, Itin, IsComm, OpNode>,
def _D32 : ADDS_FT<opstr, AFGR64RegsOpnd, Itin, IsComm, OpNode>,
Requires<[NotFP64bit, HasStdEnc]>;
def _D64 : ADDS_FT<opstr, FGR64, Itin, IsComm, OpNode>,
def _D64 : ADDS_FT<opstr, FGR64RegsOpnd, Itin, IsComm, OpNode>,
Requires<[IsFP64bit, HasStdEnc]> {
string DecoderNamespace = "Mips64";
}
}
class ABSS_FT<string opstr, RegisterClass DstRC, RegisterClass SrcRC,
class ABSS_FT<string opstr, RegisterOperand DstRC, RegisterOperand SrcRC,
InstrItinClass Itin, SDPatternOperator OpNode= null_frag> :
InstSE<(outs DstRC:$fd), (ins SrcRC:$fs), !strconcat(opstr, "\t$fd, $fs"),
[(set DstRC:$fd, (OpNode SrcRC:$fs))], Itin, FrmFR>,
@ -114,39 +114,39 @@ class ABSS_FT<string opstr, RegisterClass DstRC, RegisterClass SrcRC,
multiclass ABSS_M<string opstr, InstrItinClass Itin,
SDPatternOperator OpNode= null_frag> {
def _D32 : ABSS_FT<opstr, AFGR64, AFGR64, Itin, OpNode>,
def _D32 : ABSS_FT<opstr, AFGR64RegsOpnd, AFGR64RegsOpnd, Itin, OpNode>,
Requires<[NotFP64bit, HasStdEnc]>;
def _D64 : ABSS_FT<opstr, FGR64, FGR64, Itin, OpNode>,
def _D64 : ABSS_FT<opstr, FGR64RegsOpnd, FGR64RegsOpnd, Itin, OpNode>,
Requires<[IsFP64bit, HasStdEnc]> {
string DecoderNamespace = "Mips64";
}
}
multiclass ROUND_M<string opstr, InstrItinClass Itin> {
def _D32 : ABSS_FT<opstr, FGR32, AFGR64, Itin>,
def _D32 : ABSS_FT<opstr, FGR32RegsOpnd, AFGR64RegsOpnd, Itin>,
Requires<[NotFP64bit, HasStdEnc]>;
def _D64 : ABSS_FT<opstr, FGR32, FGR64, Itin>,
def _D64 : ABSS_FT<opstr, FGR32RegsOpnd, FGR64RegsOpnd, Itin>,
Requires<[IsFP64bit, HasStdEnc]> {
let DecoderNamespace = "Mips64";
}
}
class MFC1_FT<string opstr, RegisterClass DstRC, RegisterClass SrcRC,
class MFC1_FT<string opstr, RegisterOperand DstRC, RegisterOperand SrcRC,
InstrItinClass Itin, SDPatternOperator OpNode= null_frag> :
InstSE<(outs DstRC:$rt), (ins SrcRC:$fs), !strconcat(opstr, "\t$rt, $fs"),
[(set DstRC:$rt, (OpNode SrcRC:$fs))], Itin, FrmFR>;
class MTC1_FT<string opstr, RegisterClass DstRC, RegisterClass SrcRC,
class MTC1_FT<string opstr, RegisterOperand DstRC, RegisterOperand SrcRC,
InstrItinClass Itin, SDPatternOperator OpNode= null_frag> :
InstSE<(outs DstRC:$fs), (ins SrcRC:$rt), !strconcat(opstr, "\t$rt, $fs"),
[(set DstRC:$fs, (OpNode SrcRC:$rt))], Itin, FrmFR>;
class MFC1_FT_CCR<string opstr, RegisterClass DstRC, RegisterOperand SrcRC,
class MFC1_FT_CCR<string opstr, RegisterOperand DstRC, RegisterOperand SrcRC,
InstrItinClass Itin, SDPatternOperator OpNode= null_frag> :
InstSE<(outs DstRC:$rt), (ins SrcRC:$fs), !strconcat(opstr, "\t$rt, $fs"),
[(set DstRC:$rt, (OpNode SrcRC:$fs))], Itin, FrmFR>;
class MTC1_FT_CCR<string opstr, RegisterOperand DstRC, RegisterClass SrcRC,
class MTC1_FT_CCR<string opstr, RegisterOperand DstRC, RegisterOperand SrcRC,
InstrItinClass Itin, SDPatternOperator OpNode= null_frag> :
InstSE<(outs DstRC:$fs), (ins SrcRC:$rt), !strconcat(opstr, "\t$rt, $fs"),
[(set DstRC:$fs, (OpNode SrcRC:$rt))], Itin, FrmFR>;
@ -167,13 +167,13 @@ class SW_FT<string opstr, RegisterOperand RC, InstrItinClass Itin,
let mayStore = 1;
}
class MADDS_FT<string opstr, RegisterClass RC, InstrItinClass Itin,
class MADDS_FT<string opstr, RegisterOperand RC, InstrItinClass Itin,
SDPatternOperator OpNode = null_frag> :
InstSE<(outs RC:$fd), (ins RC:$fr, RC:$fs, RC:$ft),
!strconcat(opstr, "\t$fd, $fr, $fs, $ft"),
[(set RC:$fd, (OpNode (fmul RC:$fs, RC:$ft), RC:$fr))], Itin, FrmFR>;
class NMADDS_FT<string opstr, RegisterClass RC, InstrItinClass Itin,
class NMADDS_FT<string opstr, RegisterOperand RC, InstrItinClass Itin,
SDPatternOperator OpNode = null_frag> :
InstSE<(outs RC:$fd), (ins RC:$fr, RC:$fs, RC:$ft),
!strconcat(opstr, "\t$fd, $fr, $fs, $ft"),
@ -213,16 +213,52 @@ class CEQS_FT<string typestr, RegisterClass RC, InstrItinClass Itin,
!strconcat("c.$cond.", typestr, "\t$fs, $ft"),
[(OpNode RC:$fs, RC:$ft, imm:$cond)], Itin, FrmFR> {
let Defs = [FCR31];
let isCodeGenOnly = 1;
}
class C_COND_FT<string CondStr, string Typestr, RegisterOperand RC> :
InstSE<(outs), (ins RC:$fs, RC:$ft),
!strconcat("c.", CondStr, ".", Typestr, "\t$fs, $ft"), [], IIFcmp,
FrmFR>;
multiclass C_COND_M<string TypeStr, RegisterOperand RC, bits<5> fmt> {
def C_F_#NAME : C_COND_FT<"f", TypeStr, RC>, C_COND_FM<fmt, 0>;
def C_UN_#NAME : C_COND_FT<"un", TypeStr, RC>, C_COND_FM<fmt, 1>;
def C_EQ_#NAME : C_COND_FT<"eq", TypeStr, RC>, C_COND_FM<fmt, 2>;
def C_UEQ_#NAME : C_COND_FT<"ueq", TypeStr, RC>, C_COND_FM<fmt, 3>;
def C_OLT_#NAME : C_COND_FT<"olt", TypeStr, RC>, C_COND_FM<fmt, 4>;
def C_ULT_#NAME : C_COND_FT<"ult", TypeStr, RC>, C_COND_FM<fmt, 5>;
def C_OLE_#NAME : C_COND_FT<"ole", TypeStr, RC>, C_COND_FM<fmt, 6>;
def C_ULE_#NAME : C_COND_FT<"ule", TypeStr, RC>, C_COND_FM<fmt, 7>;
def C_SF_#NAME : C_COND_FT<"sf", TypeStr, RC>, C_COND_FM<fmt, 8>;
def C_NGLE_#NAME : C_COND_FT<"ngle", TypeStr, RC>, C_COND_FM<fmt, 9>;
def C_SEQ_#NAME : C_COND_FT<"seq", TypeStr, RC>, C_COND_FM<fmt, 10>;
def C_NGL_#NAME : C_COND_FT<"ngl", TypeStr, RC>, C_COND_FM<fmt, 11>;
def C_LT_#NAME : C_COND_FT<"lt", TypeStr, RC>, C_COND_FM<fmt, 12>;
def C_NGE_#NAME : C_COND_FT<"nge", TypeStr, RC>, C_COND_FM<fmt, 13>;
def C_LE_#NAME : C_COND_FT<"le", TypeStr, RC>, C_COND_FM<fmt, 14>;
def C_NGT_#NAME : C_COND_FT<"ngt", TypeStr, RC>, C_COND_FM<fmt, 15>;
}
defm S : C_COND_M<"s", FGR32RegsOpnd, 16>;
defm D32 : C_COND_M<"d", AFGR64RegsOpnd, 17>,
Requires<[NotFP64bit, HasStdEnc]>;
let DecoderNamespace = "Mips64" in
defm D64 : C_COND_M<"d", FGR64RegsOpnd, 17>, Requires<[IsFP64bit, HasStdEnc]>;
//===----------------------------------------------------------------------===//
// Floating Point Instructions
//===----------------------------------------------------------------------===//
def ROUND_W_S : ABSS_FT<"round.w.s", FGR32, FGR32, IIFcvt>, ABSS_FM<0xc, 16>;
def TRUNC_W_S : ABSS_FT<"trunc.w.s", FGR32, FGR32, IIFcvt>, ABSS_FM<0xd, 16>;
def CEIL_W_S : ABSS_FT<"ceil.w.s", FGR32, FGR32, IIFcvt>, ABSS_FM<0xe, 16>;
def FLOOR_W_S : ABSS_FT<"floor.w.s", FGR32, FGR32, IIFcvt>, ABSS_FM<0xf, 16>;
def CVT_W_S : ABSS_FT<"cvt.w.s", FGR32, FGR32, IIFcvt>, ABSS_FM<0x24, 16>;
def ROUND_W_S : ABSS_FT<"round.w.s", FGR32RegsOpnd, FGR32RegsOpnd, IIFcvt>,
ABSS_FM<0xc, 16>;
def TRUNC_W_S : ABSS_FT<"trunc.w.s", FGR32RegsOpnd, FGR32RegsOpnd, IIFcvt>,
ABSS_FM<0xd, 16>;
def CEIL_W_S : ABSS_FT<"ceil.w.s", FGR32RegsOpnd, FGR32RegsOpnd, IIFcvt>,
ABSS_FM<0xe, 16>;
def FLOOR_W_S : ABSS_FT<"floor.w.s", FGR32RegsOpnd, FGR32RegsOpnd, IIFcvt>,
ABSS_FM<0xf, 16>;
def CVT_W_S : ABSS_FT<"cvt.w.s", FGR32RegsOpnd, FGR32RegsOpnd, IIFcvt>,
ABSS_FM<0x24, 16>;
defm ROUND_W : ROUND_M<"round.w.d", IIFcvt>, ABSS_FM<0xc, 17>;
defm TRUNC_W : ROUND_M<"trunc.w.d", IIFcvt>, ABSS_FM<0xd, 17>;
@ -231,54 +267,72 @@ defm FLOOR_W : ROUND_M<"floor.w.d", IIFcvt>, ABSS_FM<0xf, 17>;
defm CVT_W : ROUND_M<"cvt.w.d", IIFcvt>, ABSS_FM<0x24, 17>;
let Predicates = [IsFP64bit, HasStdEnc], DecoderNamespace = "Mips64" in {
def ROUND_L_S : ABSS_FT<"round.l.s", FGR64, FGR32, IIFcvt>, ABSS_FM<0x8, 16>;
def ROUND_L_D64 : ABSS_FT<"round.l.d", FGR64, FGR64, IIFcvt>,
def ROUND_L_S : ABSS_FT<"round.l.s", FGR64RegsOpnd, FGR32RegsOpnd, IIFcvt>,
ABSS_FM<0x8, 16>;
def ROUND_L_D64 : ABSS_FT<"round.l.d", FGR64RegsOpnd, FGR64RegsOpnd, IIFcvt>,
ABSS_FM<0x8, 17>;
def TRUNC_L_S : ABSS_FT<"trunc.l.s", FGR64, FGR32, IIFcvt>, ABSS_FM<0x9, 16>;
def TRUNC_L_D64 : ABSS_FT<"trunc.l.d", FGR64, FGR64, IIFcvt>,
def TRUNC_L_S : ABSS_FT<"trunc.l.s", FGR64RegsOpnd, FGR32RegsOpnd, IIFcvt>,
ABSS_FM<0x9, 16>;
def TRUNC_L_D64 : ABSS_FT<"trunc.l.d", FGR64RegsOpnd, FGR64RegsOpnd, IIFcvt>,
ABSS_FM<0x9, 17>;
def CEIL_L_S : ABSS_FT<"ceil.l.s", FGR64, FGR32, IIFcvt>, ABSS_FM<0xa, 16>;
def CEIL_L_D64 : ABSS_FT<"ceil.l.d", FGR64, FGR64, IIFcvt>, ABSS_FM<0xa, 17>;
def FLOOR_L_S : ABSS_FT<"floor.l.s", FGR64, FGR32, IIFcvt>, ABSS_FM<0xb, 16>;
def FLOOR_L_D64 : ABSS_FT<"floor.l.d", FGR64, FGR64, IIFcvt>,
def CEIL_L_S : ABSS_FT<"ceil.l.s", FGR64RegsOpnd, FGR32RegsOpnd, IIFcvt>,
ABSS_FM<0xa, 16>;
def CEIL_L_D64 : ABSS_FT<"ceil.l.d", FGR64RegsOpnd, FGR64RegsOpnd, IIFcvt>,
ABSS_FM<0xa, 17>;
def FLOOR_L_S : ABSS_FT<"floor.l.s", FGR64RegsOpnd, FGR32RegsOpnd, IIFcvt>,
ABSS_FM<0xb, 16>;
def FLOOR_L_D64 : ABSS_FT<"floor.l.d", FGR64RegsOpnd, FGR64RegsOpnd, IIFcvt>,
ABSS_FM<0xb, 17>;
}
def CVT_S_W : ABSS_FT<"cvt.s.w", FGR32, FGR32, IIFcvt>, ABSS_FM<0x20, 20>;
def CVT_L_S : ABSS_FT<"cvt.l.s", FGR64, FGR32, IIFcvt>, ABSS_FM<0x25, 16>;
def CVT_L_D64: ABSS_FT<"cvt.l.d", FGR64, FGR64, IIFcvt>, ABSS_FM<0x25, 17>;
def CVT_S_W : ABSS_FT<"cvt.s.w", FGR32RegsOpnd, FGR32RegsOpnd, IIFcvt>,
ABSS_FM<0x20, 20>;
def CVT_L_S : ABSS_FT<"cvt.l.s", FGR64RegsOpnd, FGR32RegsOpnd, IIFcvt>,
ABSS_FM<0x25, 16>;
def CVT_L_D64: ABSS_FT<"cvt.l.d", FGR64RegsOpnd, FGR64RegsOpnd, IIFcvt>,
ABSS_FM<0x25, 17>;
let Predicates = [NotFP64bit, HasStdEnc] in {
def CVT_S_D32 : ABSS_FT<"cvt.s.d", FGR32, AFGR64, IIFcvt>, ABSS_FM<0x20, 17>;
def CVT_D32_W : ABSS_FT<"cvt.d.w", AFGR64, FGR32, IIFcvt>, ABSS_FM<0x21, 20>;
def CVT_D32_S : ABSS_FT<"cvt.d.s", AFGR64, FGR32, IIFcvt>, ABSS_FM<0x21, 16>;
def CVT_S_D32 : ABSS_FT<"cvt.s.d", FGR32RegsOpnd, AFGR64RegsOpnd, IIFcvt>,
ABSS_FM<0x20, 17>;
def CVT_D32_W : ABSS_FT<"cvt.d.w", AFGR64RegsOpnd, FGR32RegsOpnd, IIFcvt>,
ABSS_FM<0x21, 20>;
def CVT_D32_S : ABSS_FT<"cvt.d.s", AFGR64RegsOpnd, FGR32RegsOpnd, IIFcvt>,
ABSS_FM<0x21, 16>;
}
let Predicates = [IsFP64bit, HasStdEnc], DecoderNamespace = "Mips64" in {
def CVT_S_D64 : ABSS_FT<"cvt.s.d", FGR32, FGR64, IIFcvt>, ABSS_FM<0x20, 17>;
def CVT_S_L : ABSS_FT<"cvt.s.l", FGR32, FGR64, IIFcvt>, ABSS_FM<0x20, 21>;
def CVT_D64_W : ABSS_FT<"cvt.d.w", FGR64, FGR32, IIFcvt>, ABSS_FM<0x21, 20>;
def CVT_D64_S : ABSS_FT<"cvt.d.s", FGR64, FGR32, IIFcvt>, ABSS_FM<0x21, 16>;
def CVT_D64_L : ABSS_FT<"cvt.d.l", FGR64, FGR64, IIFcvt>, ABSS_FM<0x21, 21>;
def CVT_S_D64 : ABSS_FT<"cvt.s.d", FGR32RegsOpnd, FGR64RegsOpnd, IIFcvt>,
ABSS_FM<0x20, 17>;
def CVT_S_L : ABSS_FT<"cvt.s.l", FGR32RegsOpnd, FGR64RegsOpnd, IIFcvt>,
ABSS_FM<0x20, 21>;
def CVT_D64_W : ABSS_FT<"cvt.d.w", FGR64RegsOpnd, FGR32RegsOpnd, IIFcvt>,
ABSS_FM<0x21, 20>;
def CVT_D64_S : ABSS_FT<"cvt.d.s", FGR64RegsOpnd, FGR32RegsOpnd, IIFcvt>,
ABSS_FM<0x21, 16>;
def CVT_D64_L : ABSS_FT<"cvt.d.l", FGR64RegsOpnd, FGR64RegsOpnd, IIFcvt>,
ABSS_FM<0x21, 21>;
}
let isPseudo = 1, isCodeGenOnly = 1 in {
def PseudoCVT_S_W : ABSS_FT<"", FGR32, CPURegs, IIFcvt>;
def PseudoCVT_D32_W : ABSS_FT<"", AFGR64, CPURegs, IIFcvt>;
def PseudoCVT_S_L : ABSS_FT<"", FGR64, CPU64Regs, IIFcvt>;
def PseudoCVT_D64_W : ABSS_FT<"", FGR64, CPURegs, IIFcvt>;
def PseudoCVT_D64_L : ABSS_FT<"", FGR64, CPU64Regs, IIFcvt>;
def PseudoCVT_S_W : ABSS_FT<"", FGR32RegsOpnd, CPURegsOpnd, IIFcvt>;
def PseudoCVT_D32_W : ABSS_FT<"", AFGR64RegsOpnd, CPURegsOpnd, IIFcvt>;
def PseudoCVT_S_L : ABSS_FT<"", FGR64RegsOpnd, CPU64RegsOpnd, IIFcvt>;
def PseudoCVT_D64_W : ABSS_FT<"", FGR64RegsOpnd, CPURegsOpnd, IIFcvt>;
def PseudoCVT_D64_L : ABSS_FT<"", FGR64RegsOpnd, CPU64RegsOpnd, IIFcvt>;
}
let Predicates = [NoNaNsFPMath, HasStdEnc] in {
def FABS_S : ABSS_FT<"abs.s", FGR32, FGR32, IIFcvt, fabs>, ABSS_FM<0x5, 16>;
def FNEG_S : ABSS_FT<"neg.s", FGR32, FGR32, IIFcvt, fneg>, ABSS_FM<0x7, 16>;
def FABS_S : ABSS_FT<"abs.s", FGR32RegsOpnd, FGR32RegsOpnd, IIFcvt, fabs>,
ABSS_FM<0x5, 16>;
def FNEG_S : ABSS_FT<"neg.s", FGR32RegsOpnd, FGR32RegsOpnd, IIFcvt, fneg>,
ABSS_FM<0x7, 16>;
defm FABS : ABSS_M<"abs.d", IIFcvt, fabs>, ABSS_FM<0x5, 17>;
defm FNEG : ABSS_M<"neg.d", IIFcvt, fneg>, ABSS_FM<0x7, 17>;
}
def FSQRT_S : ABSS_FT<"sqrt.s", FGR32, FGR32, IIFsqrtSingle, fsqrt>,
ABSS_FM<0x4, 16>;
def FSQRT_S : ABSS_FT<"sqrt.s", FGR32RegsOpnd, FGR32RegsOpnd, IIFsqrtSingle,
fsqrt>, ABSS_FM<0x4, 16>;
defm FSQRT : ABSS_M<"sqrt.d", IIFsqrtDouble, fsqrt>, ABSS_FM<0x4, 17>;
// The odd-numbered registers are only referenced when doing loads,
@ -287,26 +341,30 @@ defm FSQRT : ABSS_M<"sqrt.d", IIFsqrtDouble, fsqrt>, ABSS_FM<0x4, 17>;
// regardless of register aliasing.
/// Move Control Registers From/To CPU Registers
def CFC1 : MFC1_FT_CCR<"cfc1", CPURegs, CCROpnd, IIFmove>, MFC1_FM<2>;
def CTC1 : MTC1_FT_CCR<"ctc1", CCROpnd, CPURegs, IIFmove>, MFC1_FM<6>;
def MFC1 : MFC1_FT<"mfc1", CPURegs, FGR32, IIFmoveC1, bitconvert>, MFC1_FM<0>;
def MTC1 : MTC1_FT<"mtc1", FGR32, CPURegs, IIFmoveC1, bitconvert>, MFC1_FM<4>;
def DMFC1 : MFC1_FT<"dmfc1", CPU64Regs, FGR64, IIFmoveC1, bitconvert>,
MFC1_FM<1>;
def DMTC1 : MTC1_FT<"dmtc1", FGR64, CPU64Regs, IIFmoveC1, bitconvert>,
MFC1_FM<5>;
def CFC1 : MFC1_FT_CCR<"cfc1", CPURegsOpnd, CCROpnd, IIFmove>, MFC1_FM<2>;
def CTC1 : MTC1_FT_CCR<"ctc1", CCROpnd, CPURegsOpnd, IIFmove>, MFC1_FM<6>;
def MFC1 : MFC1_FT<"mfc1", CPURegsOpnd, FGR32RegsOpnd, IIFmoveC1, bitconvert>,
MFC1_FM<0>;
def MTC1 : MTC1_FT<"mtc1", FGR32RegsOpnd, CPURegsOpnd, IIFmoveC1, bitconvert>,
MFC1_FM<4>;
def DMFC1 : MFC1_FT<"dmfc1", CPU64RegsOpnd, FGR64RegsOpnd, IIFmoveC1,
bitconvert>, MFC1_FM<1>;
def DMTC1 : MTC1_FT<"dmtc1", FGR64RegsOpnd, CPU64RegsOpnd, IIFmoveC1,
bitconvert>, MFC1_FM<5>;
def FMOV_S : ABSS_FT<"mov.s", FGR32, FGR32, IIFmove>, ABSS_FM<0x6, 16>;
def FMOV_D32 : ABSS_FT<"mov.d", AFGR64, AFGR64, IIFmove>, ABSS_FM<0x6, 17>,
Requires<[NotFP64bit, HasStdEnc]>;
def FMOV_D64 : ABSS_FT<"mov.d", FGR64, FGR64, IIFmove>, ABSS_FM<0x6, 17>,
Requires<[IsFP64bit, HasStdEnc]> {
let DecoderNamespace = "Mips64";
def FMOV_S : ABSS_FT<"mov.s", FGR32RegsOpnd, FGR32RegsOpnd, IIFmove>,
ABSS_FM<0x6, 16>;
def FMOV_D32 : ABSS_FT<"mov.d", AFGR64RegsOpnd, AFGR64RegsOpnd, IIFmove>,
ABSS_FM<0x6, 17>, Requires<[NotFP64bit, HasStdEnc]>;
def FMOV_D64 : ABSS_FT<"mov.d", FGR64RegsOpnd, FGR64RegsOpnd, IIFmove>,
ABSS_FM<0x6, 17>, Requires<[IsFP64bit, HasStdEnc]> {
let DecoderNamespace = "Mips64";
}
/// Floating Point Memory Instructions
let Predicates = [IsN64, HasStdEnc], DecoderNamespace = "Mips64" in {
def LWC1_P8 : LW_FT<"lwc1", FGR32RegsOpnd, IIFLoad, mem64, load>, LW_FM<0x31>;
def LWC1_P8 : LW_FT<"lwc1", FGR32RegsOpnd, IIFLoad, mem64, load>,
LW_FM<0x31>;
def SWC1_P8 : SW_FT<"swc1", FGR32RegsOpnd, IIFStore, mem64, store>,
LW_FM<0x39>;
def LDC164_P8 : LW_FT<"ldc1", FGR64RegsOpnd, IIFLoad, mem64, load>,
@ -390,47 +448,59 @@ let Predicates = [HasMips64, HasStdEnc],
}
/// Floating-point Aritmetic
def FADD_S : ADDS_FT<"add.s", FGR32, IIFadd, 1, fadd>, ADDS_FM<0x00, 16>;
defm FADD : ADDS_M<"add.d", IIFadd, 1, fadd>, ADDS_FM<0x00, 17>;
def FDIV_S : ADDS_FT<"div.s", FGR32, IIFdivSingle, 0, fdiv>, ADDS_FM<0x03, 16>;
defm FDIV : ADDS_M<"div.d", IIFdivDouble, 0, fdiv>, ADDS_FM<0x03, 17>;
def FMUL_S : ADDS_FT<"mul.s", FGR32, IIFmulSingle, 1, fmul>, ADDS_FM<0x02, 16>;
defm FMUL : ADDS_M<"mul.d", IIFmulDouble, 1, fmul>, ADDS_FM<0x02, 17>;
def FSUB_S : ADDS_FT<"sub.s", FGR32, IIFadd, 0, fsub>, ADDS_FM<0x01, 16>;
defm FSUB : ADDS_M<"sub.d", IIFadd, 0, fsub>, ADDS_FM<0x01, 17>;
def FADD_S : ADDS_FT<"add.s", FGR32RegsOpnd, IIFadd, 1, fadd>,
ADDS_FM<0x00, 16>;
defm FADD : ADDS_M<"add.d", IIFadd, 1, fadd>, ADDS_FM<0x00, 17>;
def FDIV_S : ADDS_FT<"div.s", FGR32RegsOpnd, IIFdivSingle, 0, fdiv>,
ADDS_FM<0x03, 16>;
defm FDIV : ADDS_M<"div.d", IIFdivDouble, 0, fdiv>, ADDS_FM<0x03, 17>;
def FMUL_S : ADDS_FT<"mul.s", FGR32RegsOpnd, IIFmulSingle, 1, fmul>,
ADDS_FM<0x02, 16>;
defm FMUL : ADDS_M<"mul.d", IIFmulDouble, 1, fmul>, ADDS_FM<0x02, 17>;
def FSUB_S : ADDS_FT<"sub.s", FGR32RegsOpnd, IIFadd, 0, fsub>,
ADDS_FM<0x01, 16>;
defm FSUB : ADDS_M<"sub.d", IIFadd, 0, fsub>, ADDS_FM<0x01, 17>;
let Predicates = [HasMips32r2, HasStdEnc] in {
def MADD_S : MADDS_FT<"madd.s", FGR32, IIFmulSingle, fadd>, MADDS_FM<4, 0>;
def MSUB_S : MADDS_FT<"msub.s", FGR32, IIFmulSingle, fsub>, MADDS_FM<5, 0>;
def MADD_S : MADDS_FT<"madd.s", FGR32RegsOpnd, IIFmulSingle, fadd>,
MADDS_FM<4, 0>;
def MSUB_S : MADDS_FT<"msub.s", FGR32RegsOpnd, IIFmulSingle, fsub>,
MADDS_FM<5, 0>;
}
let Predicates = [HasMips32r2, NoNaNsFPMath, HasStdEnc] in {
def NMADD_S : NMADDS_FT<"nmadd.s", FGR32, IIFmulSingle, fadd>, MADDS_FM<6, 0>;
def NMSUB_S : NMADDS_FT<"nmsub.s", FGR32, IIFmulSingle, fsub>, MADDS_FM<7, 0>;
def NMADD_S : NMADDS_FT<"nmadd.s", FGR32RegsOpnd, IIFmulSingle, fadd>,
MADDS_FM<6, 0>;
def NMSUB_S : NMADDS_FT<"nmsub.s", FGR32RegsOpnd, IIFmulSingle, fsub>,
MADDS_FM<7, 0>;
}
let Predicates = [HasMips32r2, NotFP64bit, HasStdEnc] in {
def MADD_D32 : MADDS_FT<"madd.d", AFGR64, IIFmulDouble, fadd>, MADDS_FM<4, 1>;
def MSUB_D32 : MADDS_FT<"msub.d", AFGR64, IIFmulDouble, fsub>, MADDS_FM<5, 1>;
def MADD_D32 : MADDS_FT<"madd.d", AFGR64RegsOpnd, IIFmulDouble, fadd>,
MADDS_FM<4, 1>;
def MSUB_D32 : MADDS_FT<"msub.d", AFGR64RegsOpnd, IIFmulDouble, fsub>,
MADDS_FM<5, 1>;
}
let Predicates = [HasMips32r2, NotFP64bit, NoNaNsFPMath, HasStdEnc] in {
def NMADD_D32 : NMADDS_FT<"nmadd.d", AFGR64, IIFmulDouble, fadd>,
def NMADD_D32 : NMADDS_FT<"nmadd.d", AFGR64RegsOpnd, IIFmulDouble, fadd>,
MADDS_FM<6, 1>;
def NMSUB_D32 : NMADDS_FT<"nmsub.d", AFGR64, IIFmulDouble, fsub>,
def NMSUB_D32 : NMADDS_FT<"nmsub.d", AFGR64RegsOpnd, IIFmulDouble, fsub>,
MADDS_FM<7, 1>;
}
let Predicates = [HasMips32r2, IsFP64bit, HasStdEnc], isCodeGenOnly=1 in {
def MADD_D64 : MADDS_FT<"madd.d", FGR64, IIFmulDouble, fadd>, MADDS_FM<4, 1>;
def MSUB_D64 : MADDS_FT<"msub.d", FGR64, IIFmulDouble, fsub>, MADDS_FM<5, 1>;
def MADD_D64 : MADDS_FT<"madd.d", FGR64RegsOpnd, IIFmulDouble, fadd>,
MADDS_FM<4, 1>;
def MSUB_D64 : MADDS_FT<"msub.d", FGR64RegsOpnd, IIFmulDouble, fsub>,
MADDS_FM<5, 1>;
}
let Predicates = [HasMips32r2, IsFP64bit, NoNaNsFPMath, HasStdEnc],
isCodeGenOnly=1 in {
def NMADD_D64 : NMADDS_FT<"nmadd.d", FGR64, IIFmulDouble, fadd>,
def NMADD_D64 : NMADDS_FT<"nmadd.d", FGR64RegsOpnd, IIFmulDouble, fadd>,
MADDS_FM<6, 1>;
def NMSUB_D64 : NMADDS_FT<"nmsub.d", FGR64, IIFmulDouble, fsub>,
def NMSUB_D64 : NMADDS_FT<"nmsub.d", FGR64RegsOpnd, IIFmulDouble, fsub>,
MADDS_FM<7, 1>;
}
@ -484,17 +554,19 @@ def MOVCCRToCCR : PseudoSE<(outs CCR:$dst), (ins CCROpnd:$src), []>;
// This pseudo instr gets expanded into 2 mtc1 instrs after register
// allocation.
def BuildPairF64 :
PseudoSE<(outs AFGR64:$dst),
(ins CPURegs:$lo, CPURegs:$hi),
[(set AFGR64:$dst, (MipsBuildPairF64 CPURegs:$lo, CPURegs:$hi))]>;
PseudoSE<(outs AFGR64RegsOpnd:$dst),
(ins CPURegsOpnd:$lo, CPURegsOpnd:$hi),
[(set AFGR64RegsOpnd:$dst,
(MipsBuildPairF64 CPURegsOpnd:$lo, CPURegsOpnd:$hi))]>;
// This pseudo instr gets expanded into 2 mfc1 instrs after register
// allocation.
// if n is 0, lower part of src is extracted.
// if n is 1, higher part of src is extracted.
def ExtractElementF64 :
PseudoSE<(outs CPURegs:$dst), (ins AFGR64:$src, i32imm:$n),
[(set CPURegs:$dst, (MipsExtractElementF64 AFGR64:$src, imm:$n))]>;
PseudoSE<(outs CPURegsOpnd:$dst), (ins AFGR64RegsOpnd:$src, i32imm:$n),
[(set CPURegsOpnd:$dst,
(MipsExtractElementF64 AFGR64RegsOpnd:$src, imm:$n))]>;
//===----------------------------------------------------------------------===//
// Floating Point Patterns
@ -502,34 +574,44 @@ def ExtractElementF64 :
def : MipsPat<(f32 fpimm0), (MTC1 ZERO)>;
def : MipsPat<(f32 fpimm0neg), (FNEG_S (MTC1 ZERO))>;
def : MipsPat<(f32 (sint_to_fp CPURegs:$src)), (PseudoCVT_S_W CPURegs:$src)>;
def : MipsPat<(MipsTruncIntFP FGR32:$src), (TRUNC_W_S FGR32:$src)>;
def : MipsPat<(f32 (sint_to_fp CPURegsOpnd:$src)),
(PseudoCVT_S_W CPURegsOpnd:$src)>;
def : MipsPat<(MipsTruncIntFP FGR32RegsOpnd:$src),
(TRUNC_W_S FGR32RegsOpnd:$src)>;
let Predicates = [NotFP64bit, HasStdEnc] in {
def : MipsPat<(f64 (sint_to_fp CPURegs:$src)),
(PseudoCVT_D32_W CPURegs:$src)>;
def : MipsPat<(MipsTruncIntFP AFGR64:$src), (TRUNC_W_D32 AFGR64:$src)>;
def : MipsPat<(f32 (fround AFGR64:$src)), (CVT_S_D32 AFGR64:$src)>;
def : MipsPat<(f64 (fextend FGR32:$src)), (CVT_D32_S FGR32:$src)>;
def : MipsPat<(f64 (sint_to_fp CPURegsOpnd:$src)),
(PseudoCVT_D32_W CPURegsOpnd:$src)>;
def : MipsPat<(MipsTruncIntFP AFGR64RegsOpnd:$src),
(TRUNC_W_D32 AFGR64RegsOpnd:$src)>;
def : MipsPat<(f32 (fround AFGR64RegsOpnd:$src)),
(CVT_S_D32 AFGR64RegsOpnd:$src)>;
def : MipsPat<(f64 (fextend FGR32RegsOpnd:$src)),
(CVT_D32_S FGR32RegsOpnd:$src)>;
}
let Predicates = [IsFP64bit, HasStdEnc] in {
def : MipsPat<(f64 fpimm0), (DMTC1 ZERO_64)>;
def : MipsPat<(f64 fpimm0neg), (FNEG_D64 (DMTC1 ZERO_64))>;
def : MipsPat<(f64 (sint_to_fp CPURegs:$src)),
(PseudoCVT_D64_W CPURegs:$src)>;
def : MipsPat<(f32 (sint_to_fp CPU64Regs:$src)),
(EXTRACT_SUBREG (PseudoCVT_S_L CPU64Regs:$src), sub_32)>;
def : MipsPat<(f64 (sint_to_fp CPU64Regs:$src)),
(PseudoCVT_D64_L CPU64Regs:$src)>;
def : MipsPat<(f64 (sint_to_fp CPURegsOpnd:$src)),
(PseudoCVT_D64_W CPURegsOpnd:$src)>;
def : MipsPat<(f32 (sint_to_fp CPU64RegsOpnd:$src)),
(EXTRACT_SUBREG (PseudoCVT_S_L CPU64RegsOpnd:$src), sub_32)>;
def : MipsPat<(f64 (sint_to_fp CPU64RegsOpnd:$src)),
(PseudoCVT_D64_L CPU64RegsOpnd:$src)>;
def : MipsPat<(MipsTruncIntFP FGR64:$src), (TRUNC_W_D64 FGR64:$src)>;
def : MipsPat<(MipsTruncIntFP FGR32:$src), (TRUNC_L_S FGR32:$src)>;
def : MipsPat<(MipsTruncIntFP FGR64:$src), (TRUNC_L_D64 FGR64:$src)>;
def : MipsPat<(MipsTruncIntFP FGR64RegsOpnd:$src),
(TRUNC_W_D64 FGR64RegsOpnd:$src)>;
def : MipsPat<(MipsTruncIntFP FGR32RegsOpnd:$src),
(TRUNC_L_S FGR32RegsOpnd:$src)>;
def : MipsPat<(MipsTruncIntFP FGR64RegsOpnd:$src),
(TRUNC_L_D64 FGR64RegsOpnd:$src)>;
def : MipsPat<(f32 (fround FGR64:$src)), (CVT_S_D64 FGR64:$src)>;
def : MipsPat<(f64 (fextend FGR32:$src)), (CVT_D64_S FGR32:$src)>;
def : MipsPat<(f32 (fround FGR64RegsOpnd:$src)),
(CVT_S_D64 FGR64RegsOpnd:$src)>;
def : MipsPat<(f64 (fextend FGR32RegsOpnd:$src)),
(CVT_D64_S FGR32RegsOpnd:$src)>;
}
// Patterns for loads/stores with a reg+imm operand.

View File

@ -97,6 +97,7 @@ class InstSE<dag outs, dag ins, string asmstr, list<dag> pattern,
let Predicates = [HasStdEnc];
string BaseOpcode = opstr;
string Arch;
let MnemonicContainsDot = 1;
}
// Mips Pseudo Instructions Format
@ -679,6 +680,10 @@ class CEQS_FM<bits<5> fmt> {
let Inst{3-0} = cond;
}
class C_COND_FM<bits<5> fmt, bits<4> c> : CEQS_FM<fmt> {
let cond = c;
}
class CMov_I_F_FM<bits<6> funct, bits<5> fmt> {
bits<5> fd;
bits<5> fs;