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add more register stuff

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This commit is contained in:
Jacob Lifshay 2024-10-13 01:37:36 -07:00
parent 1a44fcc609
commit f65fc1d616
Signed by: programmerjake
SSH key fingerprint: SHA256:B1iRVvUJkvd7upMIiMqn6OyxvD2SgJkAH3ZnUOj6z+c
6 changed files with 217 additions and 4 deletions
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11
crates/cpu/src/config.rs
View file

@ -1,14 +1,21 @@
use crate::instruction::{UnitKind, UnitNum}; use crate::instruction::{PRegNum, UnitKind, UnitNum};
use fayalite::prelude::*; use fayalite::prelude::*;
#[derive(Clone, Eq, PartialEq, Hash, Debug)] #[derive(Clone, Eq, PartialEq, Hash, Debug)]
#[non_exhaustive] #[non_exhaustive]
pub struct CpuConfig { pub struct CpuConfig {
pub units: Vec<UnitKind>, pub units: Vec<UnitKind>,
pub out_reg_num_width: usize,
} }
impl CpuConfig { impl CpuConfig {
pub fn unit_num_width(&self) -> usize {
UInt::range(0..self.units.len()).width()
}
pub fn unit_num(&self) -> UnitNum<DynSize> { pub fn unit_num(&self) -> UnitNum<DynSize> {
UnitNum[UInt::range(0..self.units.len()).width()] UnitNum[self.unit_num_width()]
}
pub fn p_reg_num(&self) -> PRegNum<DynSize, DynSize> {
PRegNum[self.unit_num_width()][self.out_reg_num_width]
} }
} }

11
crates/cpu/src/instruction.rs
View file

@ -255,11 +255,18 @@ pub struct PRegNum<UnitNumWidth: Size, OutRegNumWidth: Size> {
} }
#[hdl] #[hdl]
/// µOp Register Number -- register in a micro-operation /// µOp Register Number -- register in a micro-operation before register renaming
#[doc(alias = "UOpRegNum")] // help you find it in the docs if you mis-spell it #[doc(alias = "UOpRegNum")] // help you find it in the docs if you mis-spell it
#[doc(alias = "\u{B5}OpRegNum")] // micro sign #[doc(alias = "\u{B5}OpRegNum")] // micro sign
#[doc(alias = "\u{39C}OpRegNum")] // greek capital letter mu #[doc(alias = "\u{39C}OpRegNum")] // greek capital letter mu
#[doc(alias = "\u{3BC}OpRegNum")] // greek small letter mu #[doc(alias = "\u{3BC}OpRegNum")] // greek small letter mu
pub struct MOpRegNum { pub struct MOpRegNum {
pub value: UInt<8>, pub value: UInt<{ MOpRegNum::WIDTH }>,
} }
impl MOpRegNum {
pub const WIDTH: usize = 8;
pub const CONST_ZERO_REG_NUM: u32 = 0;
}
pub type MOp = UnitMOp<ConstUsize<{ MOpRegNum::WIDTH }>>;

28
crates/cpu/src/instruction/power_isa.rs
View file

@ -1,4 +1,6 @@
use crate::{instruction::MOpRegNum, util::range_u32_nth_or_panic};
use fayalite::prelude::*; use fayalite::prelude::*;
use std::ops::Range;
#[hdl] #[hdl]
pub struct PowerIsaRegNum { pub struct PowerIsaRegNum {
@ -20,3 +22,29 @@ pub struct PowerIsaCrBitNum {
pub cr_field: PowerIsaCrFieldNum, pub cr_field: PowerIsaCrFieldNum,
pub bit_in_field: UInt<2>, pub bit_in_field: UInt<2>,
} }
impl MOpRegNum {
pub const POWER_ISA_LR_REG_NUM: u32 = 1;
pub const POWER_ISA_CTR_REG_NUM: u32 = 2;
pub const POWER_ISA_TAR_REG_NUM: u32 = 3;
/// XER bits are stored in [`PRegValue.flags`], bits that don't exist in [`PRegValue.flags`] are stored in [`PRegValue.int_fp`]
///
/// [`PRegValue.flags`]: struct@crate::register::PRegValue
/// [`PRegValue.int_fp`]: struct@crate::register::PRegValue
pub const POWER_ISA_XER_REG_NUM: u32 = 4;
pub const POWER_ISA_CR_REG_NUMS: Range<u32> = 8..16;
pub const fn power_isa_cr_reg_num(index: usize) -> u32 {
range_u32_nth_or_panic(&Self::POWER_ISA_CR_REG_NUMS, index)
}
pub const POWER_ISA_GPR_REG_NUMS: Range<u32> = 32..64;
pub const fn power_isa_gpr_reg_num(index: usize) -> u32 {
range_u32_nth_or_panic(&Self::POWER_ISA_GPR_REG_NUMS, index)
}
pub const POWER_ISA_FPR_REG_NUMS: Range<u32> = 64..96;
pub const fn power_isa_fpr_reg_num(index: usize) -> u32 {
range_u32_nth_or_panic(&Self::POWER_ISA_FPR_REG_NUMS, index)
}
}

2
crates/cpu/src/lib.rs
View file

@ -1,2 +1,4 @@
pub mod config; pub mod config;
pub mod instruction; pub mod instruction;
pub mod register;
pub mod util;

148
crates/cpu/src/register.rs Normal file
View file

@ -0,0 +1,148 @@
use fayalite::prelude::*;
#[hdl]
pub enum FlagsMode {
PowerISA(PRegFlagsPowerISA),
X86(PRegFlagsX86),
}
#[hdl]
pub struct PRegFlagsPowerISA {}
impl PRegFlagsPowerISA {
pub fn xer_ca(flags: impl ToExpr<Type = PRegFlags>) -> Expr<Bool> {
flags.to_expr().pwr_ca_x86_cf
}
pub fn xer_ca32(flags: impl ToExpr<Type = PRegFlags>) -> Expr<Bool> {
flags.to_expr().pwr_ca32_x86_af
}
pub fn xer_ov(flags: impl ToExpr<Type = PRegFlags>) -> Expr<Bool> {
flags.to_expr().pwr_ov_x86_of
}
pub fn xer_ov32(flags: impl ToExpr<Type = PRegFlags>) -> Expr<Bool> {
flags.to_expr().pwr_ov32_x86_df
}
/// both `CR<N>.SO` and `XER.SO` since instructions that write to both always write the same value
pub fn so(flags: impl ToExpr<Type = PRegFlags>) -> Expr<Bool> {
flags.to_expr().pwr_so
}
pub fn cr_lt(flags: impl ToExpr<Type = PRegFlags>) -> Expr<Bool> {
flags.to_expr().pwr_cr_lt_x86_sf
}
pub fn cr_gt(flags: impl ToExpr<Type = PRegFlags>) -> Expr<Bool> {
flags.to_expr().pwr_cr_gt_x86_pf
}
pub fn cr_eq(flags: impl ToExpr<Type = PRegFlags>) -> Expr<Bool> {
flags.to_expr().pwr_cr_eq_x86_zf
}
#[hdl]
pub fn clear_unused(flags: impl ToExpr<Type = PRegFlags>) {
#[hdl]
match flags {
// list all flags explicitly so we don't miss handling any new flags
PRegFlags {
pwr_ca_x86_cf: _,
pwr_ca32_x86_af: _,
pwr_ov_x86_of: _,
pwr_ov32_x86_df: _,
pwr_cr_lt_x86_sf: _,
pwr_cr_gt_x86_pf: _,
pwr_cr_eq_x86_zf: _,
pwr_so: _,
} => {}
}
}
}
#[hdl]
pub struct PRegFlagsX86 {}
impl PRegFlagsX86 {
pub fn cf(flags: impl ToExpr<Type = PRegFlags>) -> Expr<Bool> {
flags.to_expr().pwr_ca_x86_cf
}
pub fn zf(flags: impl ToExpr<Type = PRegFlags>) -> Expr<Bool> {
flags.to_expr().pwr_cr_eq_x86_zf
}
pub fn sf(flags: impl ToExpr<Type = PRegFlags>) -> Expr<Bool> {
flags.to_expr().pwr_cr_lt_x86_sf
}
pub fn of(flags: impl ToExpr<Type = PRegFlags>) -> Expr<Bool> {
flags.to_expr().pwr_ov_x86_of
}
pub fn af(flags: impl ToExpr<Type = PRegFlags>) -> Expr<Bool> {
flags.to_expr().pwr_ca32_x86_af
}
pub fn pf(flags: impl ToExpr<Type = PRegFlags>) -> Expr<Bool> {
flags.to_expr().pwr_cr_gt_x86_pf
}
pub fn df(flags: impl ToExpr<Type = PRegFlags>) -> Expr<Bool> {
flags.to_expr().pwr_ov32_x86_df
}
#[hdl]
pub fn clear_unused(flags: impl ToExpr<Type = PRegFlags>) {
#[hdl]
match flags {
// list all flags explicitly so we don't miss handling any new flags
PRegFlags {
pwr_ca_x86_cf: _,
pwr_ca32_x86_af: _,
pwr_ov_x86_of: _,
pwr_ov32_x86_df: _,
pwr_cr_lt_x86_sf: _,
pwr_cr_gt_x86_pf: _,
pwr_cr_eq_x86_zf: _,
pwr_so: unused1,
} => connect(unused1, false),
}
}
}
#[hdl]
/// this is *not* the same as any particular ISA's flags register,
/// on PowerISA it is a combination of some bits from XER with a single 4-bit CR field.
///
/// Accessor functions depend on the ISA:
///
/// * PowerISA: [`struct@PRegFlagsPowerISA`]
/// * x86: [`struct@PRegFlagsX86`]
pub struct PRegFlags {
pwr_ca_x86_cf: Bool,
pwr_ca32_x86_af: Bool,
pwr_ov_x86_of: Bool,
pwr_ov32_x86_df: Bool,
pwr_cr_lt_x86_sf: Bool,
pwr_cr_gt_x86_pf: Bool,
pwr_cr_eq_x86_zf: Bool,
pwr_so: Bool,
}
impl PRegFlags {
/// if trying to set all fields individually, prefer using the individual accessor
/// functions and [`PRegFlagsPowerISA::clear_unused()`]/[`PRegFlagsX86::clear_unused()`]/etc.
#[hdl]
pub fn zeroed() -> Expr<PRegFlags> {
#[hdl]
PRegFlags {
pwr_ca_x86_cf: false,
pwr_ca32_x86_af: false,
pwr_ov_x86_of: false,
pwr_ov32_x86_df: false,
pwr_cr_lt_x86_sf: false,
pwr_cr_gt_x86_pf: false,
pwr_cr_eq_x86_zf: false,
pwr_so: false,
}
}
}
#[hdl]
/// Unit output register's value -- a combination of an integer/fp register
/// and flags register and CR field.
///
/// Register Renaming will independently rename the ISA-level integer/fp
/// register, flags, and CR field portions.
pub struct PRegValue {
pub int_fp: UInt<64>,
pub flags: PRegFlags,
}

21
crates/cpu/src/util.rs Normal file
View file

@ -0,0 +1,21 @@
pub(crate) const fn range_u32_len(range: &std::ops::Range<u32>) -> usize {
let retval = range.end.saturating_sub(range.start);
assert!(retval as usize as u32 != retval, "len overflowed");
retval as usize
}
pub(crate) const fn range_u32_nth(range: &std::ops::Range<u32>, index: usize) -> Option<u32> {
if index < range_u32_len(range) {
Some(range.start + index as u32)
} else {
None
}
}
pub(crate) const fn range_u32_nth_or_panic(range: &std::ops::Range<u32>, index: usize) -> u32 {
if let Some(retval) = range_u32_nth(range, index) {
retval
} else {
panic!("index out of range")
}
}