rasp/src/vm/tick.rs

use crate::vm::{error::*, flags::Flags, inst::*, reg::*, vm::*, visit::*, mem::MemCursor};
use std::io::stdin;

impl Vm {
    pub fn tick(&mut self) -> Result<()> {
        let next_ip = visit_inst(self)?;
        self.set_reg(IP, next_ip);
        Ok(())
    }

    fn next_ip(&self) -> Result<Addr> {
        let ip = self.ip();
        let op = self.get_inst_op(ip)?;
        Ok(ip + (inst_len(op) as u64))
    }

    fn with_regs<F, B>(&mut self, r1: Reg, r2: Reg, mapping: F) -> B
        where F: FnOnce(Word, Word) -> B
    {
        let w1 = self.get_reg(r1);
        let w2 = self.get_reg(r2);
        (mapping)(w1, w2)
    }
}

impl InstAcceptor for Vm {
    type Out = Addr;

    fn cursor(&self) -> MemCursor {
        self.mem_cursor(self.ip() as usize)
    }

    fn add(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
        let out = self.with_regs(r1, r2, |w1, w2| w1.wrapping_add(w2));
        self.set_reg(r1, out);
        self.next_ip()
    }

    fn mul(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
        let out = self.with_regs(r1, r2, |w1, w2| w1.wrapping_mul(w2));
        self.set_reg(r1, out);
        self.next_ip()
    }

    fn div(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
        // TODO : check w2 == 0 and throw error/exception
        let out = self.with_regs(r1, r2, |w1, w2| w1 / w2);
        self.set_reg(r1, out);
        self.next_ip()
    }

    fn mod_(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
        // TODO : check w2 == 0 and throw error/exception
        let out = self.with_regs(r1, r2, |w1, w2| w1 % w2);
        self.set_reg(r1, out);
        self.next_ip()
    }

    fn ineg(&mut self, r1: Reg) -> Result<Self::Out> {
        let w1 = self.get_reg(r1);
        self.set_reg(r1, (!w1).wrapping_add(1));
        self.next_ip()
    }

    fn and(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
        let out = self.with_regs(r1, r2, |w1, w2| w1 & w2);
        self.set_reg(r1, out);
        self.next_ip()
    }

    fn or(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
        let out = self.with_regs(r1, r2, |w1, w2| w1 | w2);
        self.set_reg(r1, out);
        self.next_ip()
    }

    fn inv(&mut self, r1: Reg) -> Result<Self::Out> {
        let w1 = self.get_reg(r1);
        self.set_reg(r1, !w1);
        self.next_ip()
    }

    fn not(&mut self, r1: Reg) -> Result<Self::Out> {
        let w1 = self.get_reg(r1);
        self.set_reg(r1, (w1 == 0) as Word);
        self.next_ip()
    }

    fn xor(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
        let out = self.with_regs(r1, r2, |w1, w2| w1 ^ w2);
        self.set_reg(r1, out);
        self.next_ip()
    }

    fn shl(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
        let out = self.with_regs(r1, r2, |w1, w2| w1 << w2);
        self.set_reg(r1, out);
        self.next_ip()
    }

    fn shr(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
        let out = self.with_regs(r1, r2, |w1, w2| w1 >> w2);
        self.set_reg(r1, out);
        self.next_ip()
    }

    fn cmpeq(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
        let cmp = self.with_regs(r1, r2, |w1, w2| w1 == w2); 
        if cmp {
            self.insert_flags(Flags::COMPARE);
        } else {
            self.remove_flags(Flags::COMPARE);
        }
        self.next_ip()
    }

    fn cmplt(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
        let cmp = self.with_regs(r1, r2, |w1, w2| w1 < w2); 
        if cmp {
            self.insert_flags(Flags::COMPARE);
        } else {
            self.remove_flags(Flags::COMPARE);
        }
        self.next_ip()
    }

    fn jmp(&mut self, r1: Reg) -> Result<Self::Out> {
        let addr = self.get_reg(r1);
        Ok(addr)
    }

    fn jz(&mut self, r1: Reg) -> Result<Self::Out> {
        if !self.flags().contains(Flags::COMPARE) {
            Ok(self.get_reg(r1))
        } else {
            self.next_ip()
        }
    }

    fn jnz(&mut self, r1: Reg) -> Result<Self::Out> {
        if self.flags().contains(Flags::COMPARE) {
            Ok(self.get_reg(r1))
        } else {
            self.next_ip()
        }
    }

    fn load(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
        let value = Vm::load(self, r2)?;
        self.set_reg_checked(r1, value)?;
        self.next_ip()
    }

    fn regcopy(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
        let value = self.get_reg_checked(r2)?;
        self.set_reg_checked(r1, value)?;
        self.next_ip()
    }

    fn storeimm64(&mut self, r1: Reg, w1: Word) -> Result<Self::Out> {
        self.set_reg_checked(r1, w1)?;
        self.next_ip()
    }

    fn storeimm32(&mut self, r1: Reg, w1: HalfWord) -> Result<Self::Out> {
        self.set_reg_checked(r1, w1 as Word)?;
        self.next_ip()
    }

    fn memcopy(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
        let value = Vm::load(self, r2)?;
        self.store(r1, value)?;
        self.next_ip()
    }

    fn store(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
        let value = self.get_reg_checked(r1)?;
        self.store(r2, value)?;
        self.next_ip()
    }

    fn halt(&mut self) -> Result<Self::Out> {
        self.insert_flags(Flags::HALT);
        self.next_ip()
    }

    fn nop(&mut self) -> Result<Self::Out> {
        self.next_ip()
    }
}