+ defm C : CompareBranches<cond4, "$M3", "">;
+defm AsmC : CompareBranches<imm32zx4, "", "$M3, ">;
+
+// Define AsmParser mnemonics for each general condition-code mask
+// (integer or floating-point)
+multiclass CondExtendedMnemonic<bits<4> ccmask, string name> {
+ let R1 = ccmask in {
+ def J : InstRI<0xA74, (outs), (ins brtarget16:$I2),
+ "j"##name##"\t$I2", []>;
+ def JG : InstRIL<0xC04, (outs), (ins brtarget32:$I2),
+ "jg"##name##"\t$I2", []>;
+ def BR : InstRR<0x07, (outs), (ins ADDR64:$R2), "b"##name##"r\t$R2", []>;
+ }
+ def LOCR : FixedCondUnaryRRF<"locr"##name, 0xB9F2, GR32, GR32, ccmask>;
+ def LOCGR : FixedCondUnaryRRF<"locgr"##name, 0xB9E2, GR64, GR64, ccmask>;
+ def LOC : FixedCondUnaryRSY<"loc"##name, 0xEBF2, GR32, ccmask, 4>;
+ def LOCG : FixedCondUnaryRSY<"locg"##name, 0xEBE2, GR64, ccmask, 8>;
+ def STOC : FixedCondStoreRSY<"stoc"##name, 0xEBF3, GR32, ccmask, 4>;
+ def STOCG : FixedCondStoreRSY<"stocg"##name, 0xEBE3, GR64, ccmask, 8>;
+}
+defm AsmO : CondExtendedMnemonic<1, "o">;
+defm AsmH : CondExtendedMnemonic<2, "h">;
+defm AsmNLE : CondExtendedMnemonic<3, "nle">;
+defm AsmL : CondExtendedMnemonic<4, "l">;
+defm AsmNHE : CondExtendedMnemonic<5, "nhe">;
+defm AsmLH : CondExtendedMnemonic<6, "lh">;
+defm AsmNE : CondExtendedMnemonic<7, "ne">;
+defm AsmE : CondExtendedMnemonic<8, "e">;
+defm AsmNLH : CondExtendedMnemonic<9, "nlh">;
+defm AsmHE : CondExtendedMnemonic<10, "he">;
+defm AsmNL : CondExtendedMnemonic<11, "nl">;
+defm AsmLE : CondExtendedMnemonic<12, "le">;
+defm AsmNH : CondExtendedMnemonic<13, "nh">;
+defm AsmNO : CondExtendedMnemonic<14, "no">;
+
+// Define AsmParser mnemonics for each integer condition-code mask.
+// This is like the list above, except that condition 3 is not possible
+// and that the low bit of the mask is therefore always 0. This means
+// that each condition has two names. Conditions "o" and "no" are not used.
+//
+// We don't make one of the two names an alias of the other because
+// we need the custom parsing routines to select the correct register class.
+multiclass IntCondExtendedMnemonicA<bits<4> ccmask, string name> {
+ let M3 = ccmask in {
+ def CR : InstRIEb<0xEC76, (outs), (ins GR32:$R1, GR32:$R2,
+ brtarget16:$RI4),
+ "crj"##name##"\t$R1, $R2, $RI4", []>;
+ def CGR : InstRIEb<0xEC64, (outs), (ins GR64:$R1, GR64:$R2,
+ brtarget16:$RI4),
+ "cgrj"##name##"\t$R1, $R2, $RI4", []>;
+ def CI : InstRIEc<0xEC7E, (outs), (ins GR32:$R1, imm32sx8:$I2,
+ brtarget16:$RI4),
+ "cij"##name##"\t$R1, $I2, $RI4", []>;
+ def CGI : InstRIEc<0xEC7C, (outs), (ins GR64:$R1, imm64sx8:$I2,
+ brtarget16:$RI4),
+ "cgij"##name##"\t$R1, $I2, $RI4", []>;
+ def CLR : InstRIEb<0xEC77, (outs), (ins GR32:$R1, GR32:$R2,
+ brtarget16:$RI4),
+ "clrj"##name##"\t$R1, $R2, $RI4", []>;
+ def CLGR : InstRIEb<0xEC65, (outs), (ins GR64:$R1, GR64:$R2,
+ brtarget16:$RI4),
+ "clgrj"##name##"\t$R1, $R2, $RI4", []>;
+ def CLI : InstRIEc<0xEC7F, (outs), (ins GR32:$R1, imm32zx8:$I2,
+ brtarget16:$RI4),
+ "clij"##name##"\t$R1, $I2, $RI4", []>;
+ def CLGI : InstRIEc<0xEC7D, (outs), (ins GR64:$R1, imm64zx8:$I2,
+ brtarget16:$RI4),
+ "clgij"##name##"\t$R1, $I2, $RI4", []>;