use crate::instruction::embive::CSlli;
use crate::instruction::embive::InstructionImpl;
use crate::interpreter::utils::likely;
use crate::interpreter::{memory::Memory, Error, Interpreter, State};
use super::super::Execute;
impl<M: Memory> Execute<M> for CSlli {
#[inline(always)]
fn execute(&self, interpreter: &mut Interpreter<'_, M>) -> Result<State, Error> {
if likely(self.0.rd_rs1 != 0) {
let rs1 = interpreter.registers.cpu.get_mut(self.0.rd_rs1)?;
*rs1 = rs1.wrapping_shl(self.0.imm as u32);
}
interpreter.program_counter = interpreter
.program_counter
.wrapping_add(Self::size() as u32);
Ok(State::Running)
}
}
#[cfg(test)]
mod tests {
use crate::{
format::{Format, TypeCI4},
instruction::embive::InstructionImpl,
interpreter::memory::SliceMemory,
};
use super::*;
#[test]
fn test_cslli() {
let mut memory = SliceMemory::new(&[], &mut []);
let mut interpreter = Interpreter::new(&mut memory, 0);
let srli = TypeCI4 { rd_rs1: 1, imm: 3 };
*interpreter.registers.cpu.get_mut(1).unwrap() = 10;
let result = CSlli::decode(srli.to_embive()).execute(&mut interpreter);
assert_eq!(result, Ok(State::Running));
assert_eq!(*interpreter.registers.cpu.get_mut(1).unwrap(), 10 << 3);
assert_eq!(interpreter.program_counter, 0x2);
}
}