def sub_eq : SubRegIndex<1, 2>;
def sub_un : SubRegIndex<1, 3>;
def sub_32 : SubRegIndex<32>;
+def sub_64 : SubRegIndex<64>;
+def sub_128 : SubRegIndex<128>;
}
let HWEncoding{4-0} = num;
}
-// VR - One of the 32 128-bit vector registers
-class VR<bits<5> num, string n> : PPCReg<n> {
+// VF - One of the 32 64-bit floating-point subregisters of the vector
+// registers (used by VSX).
+class VF<bits<5> num, string n> : PPCReg<n> {
let HWEncoding{4-0} = num;
+ let HWEncoding{5} = 1;
+}
+
+// VR - One of the 32 128-bit vector registers
+class VR<VF SubReg, string n> : PPCReg<n> {
+ let HWEncoding{4-0} = SubReg.HWEncoding{4-0};
+ let HWEncoding{5} = 0;
+ let SubRegs = [SubReg];
+ let SubRegIndices = [sub_64];
+}
+
+// VSRL - One of the 32 128-bit VSX registers that overlap with the scalar
+// floating-point registers.
+class VSRL<FPR SubReg, string n> : PPCReg<n> {
+ let HWEncoding = SubReg.HWEncoding;
+ let SubRegs = [SubReg];
+ let SubRegIndices = [sub_64];
+}
+
+// VSRH - One of the 32 128-bit VSX registers that overlap with the vector
+// registers.
+class VSRH<VR SubReg, string n> : PPCReg<n> {
+ let HWEncoding{4-0} = SubReg.HWEncoding{4-0};
+ let HWEncoding{5} = 1;
+ let SubRegs = [SubReg];
+ let SubRegIndices = [sub_128];
}
// CR - One of the 8 4-bit condition registers
DwarfRegNum<[!add(Index, 32), !add(Index, 32)]>;
}
+// Floating-point vector subregisters (for VSX)
+foreach Index = 0-31 in {
+ def VF#Index : VF<Index, "vs" # !add(Index, 32)>;
+}
+
// Vector registers
foreach Index = 0-31 in {
- def V#Index : VR<Index, "v"#Index>,
+ def V#Index : VR<!cast<VF>("VF"#Index), "v"#Index>,
DwarfRegNum<[!add(Index, 77), !add(Index, 77)]>;
}
+// VSX registers
+foreach Index = 0-31 in {
+ def VSL#Index : VSRL<!cast<FPR>("F"#Index), "vs"#Index>,
+ DwarfRegAlias<!cast<FPR>("F"#Index)>;
+}
+foreach Index = 0-31 in {
+ def VSH#Index : VSRH<!cast<VR>("V"#Index), "vs" # !add(Index, 32)>,
+ DwarfRegAlias<!cast<VR>("V"#Index)>;
+}
+
// The reprsentation of r0 when treated as the constant 0.
def ZERO : GPR<0, "0">;
def ZERO8 : GP8<ZERO, "0">;
def CR7 : CR<7, "cr7", [CR7LT, CR7GT, CR7EQ, CR7UN]>, DwarfRegNum<[75, 75]>;
}
+// The full condition-code register. This is not modeled fully, but defined
+// here primarily, for compatibility with gcc, to allow the inline asm "cc"
+// clobber specification to work.
+def CC : PPCReg<"cc">, DwarfRegAlias<CR0> {
+ let Aliases = [CR0, CR1, CR2, CR3, CR4, CR5, CR6, CR7];
+}
+
// Link register
def LR : SPR<8, "lr">, DwarfRegNum<[-2, 65]>;
//let Aliases = [LR] in
V12, V13, V14, V15, V16, V17, V18, V19, V31, V30,
V29, V28, V27, V26, V25, V24, V23, V22, V21, V20)>;
+// VSX register classes (the allocation order mirrors that of the corresponding
+// subregister classes).
+def VSLRC : RegisterClass<"PPC", [v4i32,v4f32,v2f64,v2i64], 128,
+ (add (sequence "VSL%u", 0, 13),
+ (sequence "VSL%u", 31, 14))>;
+def VSHRC : RegisterClass<"PPC", [v4i32,v4f32,v2f64,v2i64], 128,
+ (add VSH2, VSH3, VSH4, VSH5, VSH0, VSH1, VSH6, VSH7,
+ VSH8, VSH9, VSH10, VSH11, VSH12, VSH13, VSH14,
+ VSH15, VSH16, VSH17, VSH18, VSH19, VSH31, VSH30,
+ VSH29, VSH28, VSH27, VSH26, VSH25, VSH24, VSH23,
+ VSH22, VSH21, VSH20)>;
+def VSRC : RegisterClass<"PPC", [v4i32,v4f32,v2f64,v2i64], 128,
+ (add VSLRC, VSHRC)>;
+
+// Register classes for the 64-bit "scalar" VSX subregisters.
+def VFRC : RegisterClass<"PPC", [f64], 64,
+ (add VF2, VF3, VF4, VF5, VF0, VF1, VF6, VF7,
+ VF8, VF9, VF10, VF11, VF12, VF13, VF14,
+ VF15, VF16, VF17, VF18, VF19, VF31, VF30,
+ VF29, VF28, VF27, VF26, VF25, VF24, VF23,
+ VF22, VF21, VF20)>;
+def VSFRC : RegisterClass<"PPC", [f64], 64, (add F8RC, VFRC)>;
+
def CRBITRC : RegisterClass<"PPC", [i1], 32,
(add CR2LT, CR2GT, CR2EQ, CR2UN,
CR3LT, CR3GT, CR3EQ, CR3UN,
def CARRYRC : RegisterClass<"PPC", [i32], 32, (add CARRY)> {
let CopyCost = -1;
}
+
+def CCRC : RegisterClass<"PPC", [i32], 32, (add CC)> {
+ let isAllocatable = 0;
+}
+