let Predicates = [Is64Bit] in {
// 64-bit loads.
-defm LDX : Load<"ldx", 0b001011, load, I64Regs, i64>;
+let DecoderMethod = "DecodeLoadInt" in
+ defm LDX : Load<"ldx", 0b001011, load, I64Regs, i64>;
let mayLoad = 1, isCodeGenOnly = 1, isAsmParserOnly = 1 in
def TLS_LDXrr : F3_1<3, 0b001011,
def : Pat<(i64 (extloadi32 ADDRri:$addr)), (LDri ADDRri:$addr)>;
// Sign-extending load of i32 into i64 is a new SPARC v9 instruction.
-defm LDSW : Load<"ldsw", 0b001000, sextloadi32, I64Regs, i64>;
+let DecoderMethod = "DecodeLoadInt" in
+ defm LDSW : Load<"ldsw", 0b001000, sextloadi32, I64Regs, i64>;
// 64-bit stores.
-defm STX : Store<"stx", 0b001110, store, I64Regs, i64>;
+let DecoderMethod = "DecodeStoreInt" in
+ defm STX : Store<"stx", 0b001110, store, I64Regs, i64>;
// Truncating stores from i64 are identical to the i32 stores.
def : Pat<(truncstorei8 i64:$src, ADDRrr:$addr), (STBrr ADDRrr:$addr, $src)>;
// 64-bit Conditionals.
//===----------------------------------------------------------------------===//
-// Conditional branch class on %xcc:
-class XBranchSP<dag ins, string asmstr, list<dag> pattern>
- : F2_3<0b001, 0b10, (outs), ins, asmstr, pattern> {
- let isBranch = 1;
- let isTerminator = 1;
- let hasDelaySlot = 1;
-}
-
//
// Flag-setting instructions like subcc and addcc set both icc and xcc flags.
// The icc flags correspond to the 32-bit result, and the xcc are for the
let Predicates = [Is64Bit] in {
-let Uses = [ICC] in
-def BPXCC : XBranchSP<(ins brtarget:$imm19, CCOp:$cond),
- "b$cond %xcc, $imm19",
- [(SPbrxcc bb:$imm19, imm:$cond)]>;
+let Uses = [ICC], cc = 0b10 in
+ defm BPX : IPredBranch<"%xcc", [(SPbrxcc bb:$imm19, imm:$cond)]>;
// Conditional moves on %xcc.
let Uses = [ICC], Constraints = "$f = $rd" in {
-let cc = 0b110 in {
+let intcc = 1, cc = 0b10 in {
def MOVXCCrr : F4_1<0b101100, (outs IntRegs:$rd),
(ins IntRegs:$rs2, IntRegs:$f, CCOp:$cond),
"mov$cond %xcc, $rs2, $rd",
(SPselectxcc simm11:$simm11, i32:$f, imm:$cond))]>;
} // cc
-let opf_cc = 0b110 in {
+let intcc = 1, opf_cc = 0b10 in {
def FMOVS_XCC : F4_3<0b110101, 0b000001, (outs FPRegs:$rd),
(ins FPRegs:$rs2, FPRegs:$f, CCOp:$cond),
"fmovs$cond %xcc, $rs2, $rd",
} // opf_cc
} // Uses, Constraints
+// Branch On integer register with Prediction (BPr).
+let isBranch = 1, isTerminator = 1, hasDelaySlot = 1 in
+multiclass BranchOnReg<bits<3> cond, string OpcStr> {
+ def napt : F2_4<cond, 0, 1, (outs), (ins I64Regs:$rs1, bprtarget16:$imm16),
+ !strconcat(OpcStr, " $rs1, $imm16"), []>;
+ def apt : F2_4<cond, 1, 1, (outs), (ins I64Regs:$rs1, bprtarget16:$imm16),
+ !strconcat(OpcStr, ",a $rs1, $imm16"), []>;
+ def napn : F2_4<cond, 0, 0, (outs), (ins I64Regs:$rs1, bprtarget16:$imm16),
+ !strconcat(OpcStr, ",pn $rs1, $imm16"), []>;
+ def apn : F2_4<cond, 1, 0, (outs), (ins I64Regs:$rs1, bprtarget16:$imm16),
+ !strconcat(OpcStr, ",a,pn $rs1, $imm16"), []>;
+}
+
+multiclass bpr_alias<string OpcStr, Instruction NAPT, Instruction APT> {
+ def : InstAlias<!strconcat(OpcStr, ",pt $rs1, $imm16"),
+ (NAPT I64Regs:$rs1, bprtarget16:$imm16), 0>;
+ def : InstAlias<!strconcat(OpcStr, ",a,pt $rs1, $imm16"),
+ (APT I64Regs:$rs1, bprtarget16:$imm16), 0>;
+}
+
+defm BPZ : BranchOnReg<0b001, "brz">;
+defm BPLEZ : BranchOnReg<0b010, "brlez">;
+defm BPLZ : BranchOnReg<0b011, "brlz">;
+defm BPNZ : BranchOnReg<0b101, "brnz">;
+defm BPGZ : BranchOnReg<0b110, "brgz">;
+defm BPGEZ : BranchOnReg<0b111, "brgez">;
+
+defm : bpr_alias<"brz", BPZnapt, BPZapt >;
+defm : bpr_alias<"brlez", BPLEZnapt, BPLEZapt>;
+defm : bpr_alias<"brlz", BPLZnapt, BPLZapt >;
+defm : bpr_alias<"brnz", BPNZnapt, BPNZapt >;
+defm : bpr_alias<"brgz", BPGZnapt, BPGZapt >;
+defm : bpr_alias<"brgez", BPGEZnapt, BPGEZapt>;
+
+// Move integer register on register condition (MOVr).
+multiclass MOVR< bits<3> rcond, string OpcStr> {
+ def rr : F4_4r<0b101111, 0b00000, rcond, (outs I64Regs:$rd),
+ (ins I64Regs:$rs1, IntRegs:$rs2),
+ !strconcat(OpcStr, " $rs1, $rs2, $rd"), []>;
+
+ def ri : F4_4i<0b101111, rcond, (outs I64Regs:$rd),
+ (ins I64Regs:$rs1, i64imm:$simm10),
+ !strconcat(OpcStr, " $rs1, $simm10, $rd"), []>;
+}
+
+defm MOVRRZ : MOVR<0b001, "movrz">;
+defm MOVRLEZ : MOVR<0b010, "movrlez">;
+defm MOVRLZ : MOVR<0b011, "movrlz">;
+defm MOVRNZ : MOVR<0b101, "movrnz">;
+defm MOVRGZ : MOVR<0b110, "movrgz">;
+defm MOVRGEZ : MOVR<0b111, "movrgez">;
+
+// Move FP register on integer register condition (FMOVr).
+multiclass FMOVR<bits<3> rcond, string OpcStr> {
+
+ def S : F4_4r<0b110101, 0b00101, rcond,
+ (outs FPRegs:$rd), (ins I64Regs:$rs1, FPRegs:$rs2),
+ !strconcat(!strconcat("fmovrs", OpcStr)," $rs1, $rs2, $rd"),
+ []>;
+ def D : F4_4r<0b110101, 0b00110, rcond,
+ (outs FPRegs:$rd), (ins I64Regs:$rs1, FPRegs:$rs2),
+ !strconcat(!strconcat("fmovrd", OpcStr)," $rs1, $rs2, $rd"),
+ []>;
+ def Q : F4_4r<0b110101, 0b00111, rcond,
+ (outs FPRegs:$rd), (ins I64Regs:$rs1, FPRegs:$rs2),
+ !strconcat(!strconcat("fmovrq", OpcStr)," $rs1, $rs2, $rd"),
+ []>, Requires<[HasHardQuad]>;
+}
+
+let Predicates = [HasV9] in {
+ defm FMOVRZ : FMOVR<0b001, "z">;
+ defm FMOVRLEZ : FMOVR<0b010, "lez">;
+ defm FMOVRLZ : FMOVR<0b011, "lz">;
+ defm FMOVRNZ : FMOVR<0b101, "nz">;
+ defm FMOVRGZ : FMOVR<0b110, "gz">;
+ defm FMOVRGEZ : FMOVR<0b111, "gez">;
+}
+
//===----------------------------------------------------------------------===//
// 64-bit Floating Point Conversions.
//===----------------------------------------------------------------------===//
[(set i64:$rd,
(atomic_swap_64 iPTR:$addr, i64:$rs2))]>;
+let Predicates = [Is64Bit], hasSideEffects = 1, Uses = [ICC], cc = 0b10 in
+ defm TXCC : TRAP<"%xcc">;
+
// Global addresses, constant pool entries
let Predicates = [Is64Bit] in {
projects / oota-llvm.git / blobdiff