pub mod rv32_zbb_helpers;
#[cfg(test)]
mod tests;
use crate::{ExecutableInstruction, ExecutionError, InterpreterState};
use ab_riscv_macros::instruction_execution;
use ab_riscv_primitives::prelude::*;
use core::ops::ControlFlow;
#[instruction_execution]
impl<Reg, ExtState, Memory, PC, InstructionHandler, CustomError>
ExecutableInstruction<
InterpreterState<Reg, ExtState, Memory, PC, InstructionHandler, CustomError>,
CustomError,
> for Rv32ZbbInstruction<Reg>
where
Reg: Register<Type = u32>,
[(); Reg::N]:,
{
#[inline(always)]
fn execute(
self,
state: &mut InterpreterState<Reg, ExtState, Memory, PC, InstructionHandler, CustomError>,
) -> Result<ControlFlow<()>, ExecutionError<Reg::Type, CustomError>> {
match self {
Self::Andn { rd, rs1, rs2 } => {
let value = state.regs.read(rs1) & !state.regs.read(rs2);
state.regs.write(rd, value);
}
Self::Orn { rd, rs1, rs2 } => {
let value = state.regs.read(rs1) | !state.regs.read(rs2);
state.regs.write(rd, value);
}
Self::Xnor { rd, rs1, rs2 } => {
let value = !(state.regs.read(rs1) ^ state.regs.read(rs2));
state.regs.write(rd, value);
}
Self::Clz { rd, rs1 } => {
let value = state.regs.read(rs1).leading_zeros();
state.regs.write(rd, value);
}
Self::Ctz { rd, rs1 } => {
let value = state.regs.read(rs1).trailing_zeros();
state.regs.write(rd, value);
}
Self::Cpop { rd, rs1 } => {
let value = state.regs.read(rs1).count_ones();
state.regs.write(rd, value);
}
Self::Max { rd, rs1, rs2 } => {
let a = state.regs.read(rs1).cast_signed();
let b = state.regs.read(rs2).cast_signed();
let value = a.max(b).cast_unsigned();
state.regs.write(rd, value);
}
Self::Maxu { rd, rs1, rs2 } => {
let value = state.regs.read(rs1).max(state.regs.read(rs2));
state.regs.write(rd, value);
}
Self::Min { rd, rs1, rs2 } => {
let a = state.regs.read(rs1).cast_signed();
let b = state.regs.read(rs2).cast_signed();
let value = a.min(b).cast_unsigned();
state.regs.write(rd, value);
}
Self::Minu { rd, rs1, rs2 } => {
let value = state.regs.read(rs1).min(state.regs.read(rs2));
state.regs.write(rd, value);
}
Self::Sextb { rd, rs1 } => {
let value = i32::from(state.regs.read(rs1) as i8).cast_unsigned();
state.regs.write(rd, value);
}
Self::Sexth { rd, rs1 } => {
let value = i32::from(state.regs.read(rs1) as i16).cast_unsigned();
state.regs.write(rd, value);
}
Self::Zexth { rd, rs1 } => {
let value = u32::from(state.regs.read(rs1) as u16);
state.regs.write(rd, value);
}
Self::Rol { rd, rs1, rs2 } => {
let shamt = state.regs.read(rs2) & 0x1f;
let value = state.regs.read(rs1).rotate_left(shamt);
state.regs.write(rd, value);
}
Self::Ror { rd, rs1, rs2 } => {
let shamt = state.regs.read(rs2) & 0x1f;
let value = state.regs.read(rs1).rotate_right(shamt);
state.regs.write(rd, value);
}
Self::Rori { rd, rs1, shamt } => {
let value = state.regs.read(rs1).rotate_right(u32::from(shamt & 0x1f));
state.regs.write(rd, value);
}
Self::Orcb { rd, rs1 } => {
let src = state.regs.read(rs1);
state.regs.write(rd, rv32_zbb_helpers::orc_b(src));
}
Self::Rev8 { rd, rs1 } => {
let value = state.regs.read(rs1).swap_bytes();
state.regs.write(rd, value);
}
}
Ok(ControlFlow::Continue(()))
}
}