blob: 4be8ff9200e92f0e0e4a728d57668a5bf92bf9b6 [file] [log] [blame]
//===-- RISCVRegisterInfo.td - RISC-V Register defs --------*- tablegen -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//===----------------------------------------------------------------------===//
// Declarations that describe the RISC-V register files
//===----------------------------------------------------------------------===//
let Namespace = "RISCV" in {
class RISCVReg<bits<5> Enc, string n, list<string> alt = []> : Register<n> {
let HWEncoding{4-0} = Enc;
let AltNames = alt;
}
class RISCVReg32<bits<5> Enc, string n, list<string> alt = []> : Register<n> {
let HWEncoding{4-0} = Enc;
let AltNames = alt;
}
// Because RISCVReg64 register have AsmName and AltNames that alias with their
// 32-bit sub-register, RISCVAsmParser will need to coerce a register number
// from a RISCVReg32 to the equivalent RISCVReg64 when appropriate.
def sub_32 : SubRegIndex<32>;
class RISCVReg64<RISCVReg32 subreg> : Register<""> {
let HWEncoding{4-0} = subreg.HWEncoding{4-0};
let SubRegs = [subreg];
let SubRegIndices = [sub_32];
let AsmName = subreg.AsmName;
let AltNames = subreg.AltNames;
}
def ABIRegAltName : RegAltNameIndex;
} // Namespace = "RISCV"
// Integer registers
// CostPerUse is set higher for registers that may not be compressible as they
// are not part of GPRC, the most restrictive register class used by the
// compressed instruction set. This will influence the greedy register
// allocator to reduce the use of registers that can't be encoded in 16 bit
// instructions. This affects register allocation even when compressed
// instruction isn't targeted, we see no major negative codegen impact.
let RegAltNameIndices = [ABIRegAltName] in {
def X0 : RISCVReg<0, "x0", ["zero"]>, DwarfRegNum<[0]>;
let CostPerUse = 1 in {
def X1 : RISCVReg<1, "x1", ["ra"]>, DwarfRegNum<[1]>;
def X2 : RISCVReg<2, "x2", ["sp"]>, DwarfRegNum<[2]>;
def X3 : RISCVReg<3, "x3", ["gp"]>, DwarfRegNum<[3]>;
def X4 : RISCVReg<4, "x4", ["tp"]>, DwarfRegNum<[4]>;
def X5 : RISCVReg<5, "x5", ["t0"]>, DwarfRegNum<[5]>;
def X6 : RISCVReg<6, "x6", ["t1"]>, DwarfRegNum<[6]>;
def X7 : RISCVReg<7, "x7", ["t2"]>, DwarfRegNum<[7]>;
}
def X8 : RISCVReg<8, "x8", ["s0"]>, DwarfRegNum<[8]>;
def X9 : RISCVReg<9, "x9", ["s1"]>, DwarfRegNum<[9]>;
def X10 : RISCVReg<10,"x10", ["a0"]>, DwarfRegNum<[10]>;
def X11 : RISCVReg<11,"x11", ["a1"]>, DwarfRegNum<[11]>;
def X12 : RISCVReg<12,"x12", ["a2"]>, DwarfRegNum<[12]>;
def X13 : RISCVReg<13,"x13", ["a3"]>, DwarfRegNum<[13]>;
def X14 : RISCVReg<14,"x14", ["a4"]>, DwarfRegNum<[14]>;
def X15 : RISCVReg<15,"x15", ["a5"]>, DwarfRegNum<[15]>;
let CostPerUse = 1 in {
def X16 : RISCVReg<16,"x16", ["a6"]>, DwarfRegNum<[16]>;
def X17 : RISCVReg<17,"x17", ["a7"]>, DwarfRegNum<[17]>;
def X18 : RISCVReg<18,"x18", ["s2"]>, DwarfRegNum<[18]>;
def X19 : RISCVReg<19,"x19", ["s3"]>, DwarfRegNum<[19]>;
def X20 : RISCVReg<20,"x20", ["s4"]>, DwarfRegNum<[20]>;
def X21 : RISCVReg<21,"x21", ["s5"]>, DwarfRegNum<[21]>;
def X22 : RISCVReg<22,"x22", ["s6"]>, DwarfRegNum<[22]>;
def X23 : RISCVReg<23,"x23", ["s7"]>, DwarfRegNum<[23]>;
def X24 : RISCVReg<24,"x24", ["s8"]>, DwarfRegNum<[24]>;
def X25 : RISCVReg<25,"x25", ["s9"]>, DwarfRegNum<[25]>;
def X26 : RISCVReg<26,"x26", ["s10"]>, DwarfRegNum<[26]>;
def X27 : RISCVReg<27,"x27", ["s11"]>, DwarfRegNum<[27]>;
def X28 : RISCVReg<28,"x28", ["t3"]>, DwarfRegNum<[28]>;
def X29 : RISCVReg<29,"x29", ["t4"]>, DwarfRegNum<[29]>;
def X30 : RISCVReg<30,"x30", ["t5"]>, DwarfRegNum<[30]>;
def X31 : RISCVReg<31,"x31", ["t6"]>, DwarfRegNum<[31]>;
}
}
def XLenVT : ValueTypeByHwMode<[RV32, RV64, DefaultMode],
[i32, i64, i32]>;
// The order of registers represents the preferred allocation sequence.
// Registers are listed in the order caller-save, callee-save, specials.
def GPR : RegisterClass<"RISCV", [XLenVT], 32, (add
(sequence "X%u", 10, 17),
(sequence "X%u", 5, 7),
(sequence "X%u", 28, 31),
(sequence "X%u", 8, 9),
(sequence "X%u", 18, 27),
(sequence "X%u", 0, 4)
)> {
let RegInfos = RegInfoByHwMode<
[RV32, RV64, DefaultMode],
[RegInfo<32,32,32>, RegInfo<64,64,64>, RegInfo<32,32,32>]>;
}
// The order of registers represents the preferred allocation sequence.
// Registers are listed in the order caller-save, callee-save, specials.
def GPRNoX0 : RegisterClass<"RISCV", [XLenVT], 32, (add
(sequence "X%u", 10, 17),
(sequence "X%u", 5, 7),
(sequence "X%u", 28, 31),
(sequence "X%u", 8, 9),
(sequence "X%u", 18, 27),
(sequence "X%u", 1, 4)
)> {
let RegInfos = RegInfoByHwMode<
[RV32, RV64, DefaultMode],
[RegInfo<32,32,32>, RegInfo<64,64,64>, RegInfo<32,32,32>]>;
}
def GPRNoX0X2 : RegisterClass<"RISCV", [XLenVT], 32, (add
(sequence "X%u", 10, 17),
(sequence "X%u", 5, 7),
(sequence "X%u", 28, 31),
(sequence "X%u", 8, 9),
(sequence "X%u", 18, 27),
X1, X3, X4
)> {
let RegInfos = RegInfoByHwMode<
[RV32, RV64, DefaultMode],
[RegInfo<32,32,32>, RegInfo<64,64,64>, RegInfo<32,32,32>]>;
}
def GPRC : RegisterClass<"RISCV", [XLenVT], 32, (add
(sequence "X%u", 10, 15),
(sequence "X%u", 8, 9)
)> {
let RegInfos = RegInfoByHwMode<
[RV32, RV64, DefaultMode],
[RegInfo<32,32,32>, RegInfo<64,64,64>, RegInfo<32,32,32>]>;
}
// For indirect tail calls, we can't use callee-saved registers, as they are
// restored to the saved value before the tail call, which would clobber a call
// address.
def GPRTC : RegisterClass<"RISCV", [XLenVT], 32, (add
(sequence "X%u", 5, 7),
(sequence "X%u", 10, 17),
(sequence "X%u", 28, 31)
)> {
let RegInfos = RegInfoByHwMode<
[RV32, RV64, DefaultMode],
[RegInfo<32,32,32>, RegInfo<64,64,64>, RegInfo<32,32,32>]>;
}
def SP : RegisterClass<"RISCV", [XLenVT], 32, (add X2)> {
let RegInfos = RegInfoByHwMode<
[RV32, RV64, DefaultMode],
[RegInfo<32,32,32>, RegInfo<64,64,64>, RegInfo<32,32,32>]>;
}
// Floating point registers
let RegAltNameIndices = [ABIRegAltName] in {
def F0_32 : RISCVReg32<0, "f0", ["ft0"]>, DwarfRegNum<[32]>;
def F1_32 : RISCVReg32<1, "f1", ["ft1"]>, DwarfRegNum<[33]>;
def F2_32 : RISCVReg32<2, "f2", ["ft2"]>, DwarfRegNum<[34]>;
def F3_32 : RISCVReg32<3, "f3", ["ft3"]>, DwarfRegNum<[35]>;
def F4_32 : RISCVReg32<4, "f4", ["ft4"]>, DwarfRegNum<[36]>;
def F5_32 : RISCVReg32<5, "f5", ["ft5"]>, DwarfRegNum<[37]>;
def F6_32 : RISCVReg32<6, "f6", ["ft6"]>, DwarfRegNum<[38]>;
def F7_32 : RISCVReg32<7, "f7", ["ft7"]>, DwarfRegNum<[39]>;
def F8_32 : RISCVReg32<8, "f8", ["fs0"]>, DwarfRegNum<[40]>;
def F9_32 : RISCVReg32<9, "f9", ["fs1"]>, DwarfRegNum<[41]>;
def F10_32 : RISCVReg32<10,"f10", ["fa0"]>, DwarfRegNum<[42]>;
def F11_32 : RISCVReg32<11,"f11", ["fa1"]>, DwarfRegNum<[43]>;
def F12_32 : RISCVReg32<12,"f12", ["fa2"]>, DwarfRegNum<[44]>;
def F13_32 : RISCVReg32<13,"f13", ["fa3"]>, DwarfRegNum<[45]>;
def F14_32 : RISCVReg32<14,"f14", ["fa4"]>, DwarfRegNum<[46]>;
def F15_32 : RISCVReg32<15,"f15", ["fa5"]>, DwarfRegNum<[47]>;
def F16_32 : RISCVReg32<16,"f16", ["fa6"]>, DwarfRegNum<[48]>;
def F17_32 : RISCVReg32<17,"f17", ["fa7"]>, DwarfRegNum<[49]>;
def F18_32 : RISCVReg32<18,"f18", ["fs2"]>, DwarfRegNum<[50]>;
def F19_32 : RISCVReg32<19,"f19", ["fs3"]>, DwarfRegNum<[51]>;
def F20_32 : RISCVReg32<20,"f20", ["fs4"]>, DwarfRegNum<[52]>;
def F21_32 : RISCVReg32<21,"f21", ["fs5"]>, DwarfRegNum<[53]>;
def F22_32 : RISCVReg32<22,"f22", ["fs6"]>, DwarfRegNum<[54]>;
def F23_32 : RISCVReg32<23,"f23", ["fs7"]>, DwarfRegNum<[55]>;
def F24_32 : RISCVReg32<24,"f24", ["fs8"]>, DwarfRegNum<[56]>;
def F25_32 : RISCVReg32<25,"f25", ["fs9"]>, DwarfRegNum<[57]>;
def F26_32 : RISCVReg32<26,"f26", ["fs10"]>, DwarfRegNum<[58]>;
def F27_32 : RISCVReg32<27,"f27", ["fs11"]>, DwarfRegNum<[59]>;
def F28_32 : RISCVReg32<28,"f28", ["ft8"]>, DwarfRegNum<[60]>;
def F29_32 : RISCVReg32<29,"f29", ["ft9"]>, DwarfRegNum<[61]>;
def F30_32 : RISCVReg32<30,"f30", ["ft10"]>, DwarfRegNum<[62]>;
def F31_32 : RISCVReg32<31,"f31", ["ft11"]>, DwarfRegNum<[63]>;
foreach Index = 0-31 in {
def F#Index#_64 : RISCVReg64<!cast<RISCVReg32>("F"#Index#"_32")>,
DwarfRegNum<[!add(Index, 32)]>;
}
}
// The order of registers represents the preferred allocation sequence,
// meaning caller-save regs are listed before callee-save.
def FPR32 : RegisterClass<"RISCV", [f32], 32, (add
(sequence "F%u_32", 0, 7),
(sequence "F%u_32", 10, 17),
(sequence "F%u_32", 28, 31),
(sequence "F%u_32", 8, 9),
(sequence "F%u_32", 18, 27)
)>;
def FPR32C : RegisterClass<"RISCV", [f32], 32, (add
(sequence "F%u_32", 10, 15),
(sequence "F%u_32", 8, 9)
)>;
// The order of registers represents the preferred allocation sequence,
// meaning caller-save regs are listed before callee-save.
def FPR64 : RegisterClass<"RISCV", [f64], 64, (add
(sequence "F%u_64", 0, 7),
(sequence "F%u_64", 10, 17),
(sequence "F%u_64", 28, 31),
(sequence "F%u_64", 8, 9),
(sequence "F%u_64", 18, 27)
)>;
def FPR64C : RegisterClass<"RISCV", [f64], 64, (add
(sequence "F%u_64", 10, 15),
(sequence "F%u_64", 8, 9)
)>;