NaplesPURegisterInfo.td
The NuPlusRegisterInfo.td is used to define the nu+ hw registers and the nu+ register classes.
The registers definition is done creating two support classes NuPlusGPRReg and NuPlus64GPRReg. The first one is used to define 32-bit wide registers while the second is used to define 64-bit wide registers. We made this distinction because the hardware uses the same register for both 32 and 64 bits wide variables. Thus a 64-bit wide register is composed by a couple of 32-bit wide register, using the even sub-register to contain the 32 less significant bits, while the odd sub-register holds the 32 most significant bits.
// NuPlus 32-bit registers
class NuPlusGPRReg<bits<16> Enc, string n> : NuPlusReg<Enc, n>;
// NuPlus pairs of 32-bit registers
class NuPlus64GPRReg<bits<16> Enc, string n, list<Register> subregs>
: NuPlusRegWithSubRegs<Enc, n, subregs> {
let SubRegIndices = [sub_even, sub_odd];
let CoveredBySubRegs = 1;
}Note that the NuPlus64GPRReg uses SubRegIndices to index a specific 32-bit wide sub-register. In particular, sub_even indexes the even sub-register, while sub_odd indexes the odd sub-register.
Two loops are used to define the architecture general purpose registers.
// General Purpose scalar registers
foreach i = 0-57 in {
def S#i : NuPlusGPRReg<i, "s"#i>, DwarfRegNum<[i]>;
}
//trap register
def TR_REG : NuPlusGPRReg<58, "tr">, DwarfRegNum<[58]>;
//mask register
def MR_REG : NuPlusGPRReg<59, "rm">, DwarfRegNum<[59]>;
//frame pointer
def FP_REG : NuPlusGPRReg<60, "fp">, DwarfRegNum<[60]>;
//stack pointer
def SP_REG : NuPlusGPRReg<61, "sp">, DwarfRegNum<[61]>;
//return address
def RA_REG : NuPlusGPRReg<62, "ra">, DwarfRegNum<[62]>;
//PC
def PC_REG : NuPlusGPRReg<63, "pc">, DwarfRegNum<[63]>;
// General Purpose vectorial registers
foreach i = 0-63 in {
def V#i : NuPlusGPRReg<i, "v"#i>, DwarfRegNum<[!add(i, 64)]>;
}Note also the definition of the special registers.
