rasp/src/vm/tick.rs

use crate::vm::{error::*, flags::Flags, inst::*, reg::*, vm::*};

impl Vm {
    pub fn tick(&mut self) -> Result<()> {
        let mut cursor = self.mem_cursor(self.ip() as usize);
        let op = cursor.next_u16()?;
        let next_ip;

        macro_rules! math_inst {
            ($mapping:expr) => {{
                let (r1, r2) = cursor.next_regs()?;
                next_ip = cursor.position();
                let value = ($mapping)(self.get_reg(r1), self.get_reg(r2));
                self.set_reg(r1, value);
            }};
        }
        match op {
            ADD => math_inst!(|w1: u64, w2: u64| w1.wrapping_add(w2)),
            MUL => math_inst!(|w1: u64, w2: u64| w1.wrapping_mul(w2)),
            DIV => math_inst!(|w1: u64, w2: u64| w1.wrapping_div(w2)),
            MOD => math_inst!(|w1: u64, w2: u64| w1 % w2),
            INEG => todo!(),
            AND => math_inst!(|w1: u64, w2: u64| w1 & w2),
            OR => math_inst!(|w1: u64, w2: u64| w1 | w2),
            INV => {
                let r1 = cursor.next_reg()?;
                next_ip = cursor.position();
                let value = self.get_reg(r1);
                self.set_reg(r1, !value);
            }
            NOT => {
                let r1 = cursor.next_reg()?;
                next_ip = cursor.position();
                let value = self.get_reg(r1);
                self.set_reg(r1, (value == 0) as Word);
            }
            XOR => math_inst!(|w1: u64, w2: u64| w1 ^ w2),
            SHL => math_inst!(|w1: u64, w2: u64| w1 << w2),
            SHR => math_inst!(|w1: u64, w2: u64| w1 >> w2),
            CMPEQ => {
                let (r1, r2) = cursor.next_regs()?;
                next_ip = cursor.position();
                let cmp = self.get_reg(r1) == self.get_reg(r2);
                if cmp {
                    self.insert_flags(Flags::COMPARE);
                } else {
                    self.remove_flags(Flags::COMPARE);
                }
            }
            CMPLT => {
                let (r1, r2) = cursor.next_regs()?;
                next_ip = cursor.position();
                let cmp = self.get_reg(r1) < self.get_reg(r2);
                if cmp {
                    self.insert_flags(Flags::COMPARE);
                } else {
                    self.remove_flags(Flags::COMPARE);
                }
            }
            JMP => {
                let r1 = cursor.next_reg()?;
                next_ip = self.get_reg(r1);
            }
            JZ => {
                let r1 = cursor.next_reg()?;
                if !self.flags().contains(Flags::COMPARE) {
                    next_ip = self.get_reg(r1);
                } else {
                    next_ip = cursor.position();
                }
            }
            JNZ => {
                let r1 = cursor.next_reg()?;
                if self.flags().contains(Flags::COMPARE) {
                    next_ip = self.get_reg(r1);
                } else {
                    next_ip = cursor.position();
                }
            }
            LOAD => {
                let (r1, r2) = cursor.next_regs()?;
                next_ip = cursor.position();
                let value = self.load(r2);
                self.set_reg(r1, value);
            }
            REGCOPY => math_inst!(|_: u64, w2: u64| w2),
            STOREIMM64 => {
                let r1 = cursor.next_reg()?;
                // skip
                cursor.next_u32()?;
                let imm = cursor.next_u64()?;
                next_ip = cursor.position();
                self.set_reg(r1, imm);
            }
            STOREIMM32 => {
                let r1 = cursor.next_reg()?;
                let imm = cursor.next_u32()?;
                next_ip = cursor.position();
                self.set_reg(r1, imm as u64);
            }
            MEMCOPY => {
                let (r1, r2) = cursor.next_regs()?;
                next_ip = cursor.position();
                let value = self.load(r2);
                self.store(r1, value);
            }
            STORE => {
                let (r1, r2) = cursor.next_regs()?;
                next_ip = cursor.position();
                let value = self.get_reg(r1);
                self.store(r2, value);
            }
            HALT => {
                next_ip = cursor.position();
                self.insert_flags(Flags::HALT);
            }
            NOP => {
                next_ip = cursor.position();
            }
            _ => panic!("unknown instruction opcode: 0x{:04x}", op),
        }

        self.set_reg(IP, next_ip);

        Ok(())
    }
}
Add object layout, object parsing, instruction layout * Object layout and parsing are done in the vm::obj module * Add MemCursor, a wrapper around the std::io::Cursor type for walking through VM memory * Add vm::tick module for containing the Vm::tick() method implementation, since it's pretty big * Instructions are now variable-sized, and are read lazily, one-at-a-time directly from memory. * Add VM runtime error structure * Probably some other stuff I forgot Signed-off-by: Alek Ratzloff <alekratz@gmail.com> 2020-02-03 17:56:32 -05:00			`use crate::vm::{error::, flags::Flags, inst::, reg::, vm::};`

			`impl Vm {`
			`pub fn tick(&mut self) -> Result<()> {`
			`let mut cursor = self.mem_cursor(self.ip() as usize);`
			`let op = cursor.next_u16()?;`
			`let next_ip;`

			`macro_rules! math_inst {`
			`($mapping:expr) => {{`
			`let (r1, r2) = cursor.next_regs()?;`
			`next_ip = cursor.position();`
			`let value = ($mapping)(self.get_reg(r1), self.get_reg(r2));`
			`self.set_reg(r1, value);`
Rustfmt Signed-off-by: Alek Ratzloff <alekratz@gmail.com> 2020-02-09 13:13:26 -05:00			`}};`
Add object layout, object parsing, instruction layout * Object layout and parsing are done in the vm::obj module * Add MemCursor, a wrapper around the std::io::Cursor type for walking through VM memory * Add vm::tick module for containing the Vm::tick() method implementation, since it's pretty big * Instructions are now variable-sized, and are read lazily, one-at-a-time directly from memory. * Add VM runtime error structure * Probably some other stuff I forgot Signed-off-by: Alek Ratzloff <alekratz@gmail.com> 2020-02-03 17:56:32 -05:00			`}`
			`match op {`
			`ADD => math_inst!(\|w1: u64, w2: u64\| w1.wrapping_add(w2)),`
			`MUL => math_inst!(\|w1: u64, w2: u64\| w1.wrapping_mul(w2)),`
			`DIV => math_inst!(\|w1: u64, w2: u64\| w1.wrapping_div(w2)),`
			`MOD => math_inst!(\|w1: u64, w2: u64\| w1 % w2),`
Rustfmt Signed-off-by: Alek Ratzloff <alekratz@gmail.com> 2020-02-09 13:13:26 -05:00			`INEG => todo!(),`
Add object layout, object parsing, instruction layout * Object layout and parsing are done in the vm::obj module * Add MemCursor, a wrapper around the std::io::Cursor type for walking through VM memory * Add vm::tick module for containing the Vm::tick() method implementation, since it's pretty big * Instructions are now variable-sized, and are read lazily, one-at-a-time directly from memory. * Add VM runtime error structure * Probably some other stuff I forgot Signed-off-by: Alek Ratzloff <alekratz@gmail.com> 2020-02-03 17:56:32 -05:00			`AND => math_inst!(\|w1: u64, w2: u64\| w1 & w2),`
			`OR => math_inst!(\|w1: u64, w2: u64\| w1 \| w2),`
			`INV => {`
			`let r1 = cursor.next_reg()?;`
			`next_ip = cursor.position();`
			`let value = self.get_reg(r1);`
			`self.set_reg(r1, !value);`
			`}`
			`NOT => {`
			`let r1 = cursor.next_reg()?;`
			`next_ip = cursor.position();`
			`let value = self.get_reg(r1);`
			`self.set_reg(r1, (value == 0) as Word);`
			`}`
			`XOR => math_inst!(\|w1: u64, w2: u64\| w1 ^ w2),`
			`SHL => math_inst!(\|w1: u64, w2: u64\| w1 << w2),`
			`SHR => math_inst!(\|w1: u64, w2: u64\| w1 >> w2),`
			`CMPEQ => {`
			`let (r1, r2) = cursor.next_regs()?;`
			`next_ip = cursor.position();`
			`let cmp = self.get_reg(r1) == self.get_reg(r2);`
			`if cmp {`
			`self.insert_flags(Flags::COMPARE);`
			`} else {`
			`self.remove_flags(Flags::COMPARE);`
			`}`
			`}`
			`CMPLT => {`
			`let (r1, r2) = cursor.next_regs()?;`
			`next_ip = cursor.position();`
			`let cmp = self.get_reg(r1) < self.get_reg(r2);`
			`if cmp {`
			`self.insert_flags(Flags::COMPARE);`
			`} else {`
			`self.remove_flags(Flags::COMPARE);`
			`}`
			`}`
			`JMP => {`
			`let r1 = cursor.next_reg()?;`
			`next_ip = self.get_reg(r1);`
			`}`
			`JZ => {`
			`let r1 = cursor.next_reg()?;`
			`if !self.flags().contains(Flags::COMPARE) {`
			`next_ip = self.get_reg(r1);`
			`} else {`
			`next_ip = cursor.position();`
			`}`
			`}`
			`JNZ => {`
			`let r1 = cursor.next_reg()?;`
			`if self.flags().contains(Flags::COMPARE) {`
			`next_ip = self.get_reg(r1);`
			`} else {`
			`next_ip = cursor.position();`
			`}`
			`}`
			`LOAD => {`
			`let (r1, r2) = cursor.next_regs()?;`
			`next_ip = cursor.position();`
			`let value = self.load(r2);`
			`self.set_reg(r1, value);`
			`}`
			`REGCOPY => math_inst!(\|_: u64, w2: u64\| w2),`
			`STOREIMM64 => {`
			`let r1 = cursor.next_reg()?;`
			`// skip`
			`cursor.next_u32()?;`
			`let imm = cursor.next_u64()?;`
			`next_ip = cursor.position();`
			`self.set_reg(r1, imm);`
			`}`
			`STOREIMM32 => {`
			`let r1 = cursor.next_reg()?;`
			`let imm = cursor.next_u32()?;`
			`next_ip = cursor.position();`
			`self.set_reg(r1, imm as u64);`
			`}`
			`MEMCOPY => {`
			`let (r1, r2) = cursor.next_regs()?;`
			`next_ip = cursor.position();`
			`let value = self.load(r2);`
			`self.store(r1, value);`
			`}`
			`STORE => {`
			`let (r1, r2) = cursor.next_regs()?;`
			`next_ip = cursor.position();`
			`let value = self.get_reg(r1);`
			`self.store(r2, value);`
			`}`
			`HALT => {`
			`next_ip = cursor.position();`
			`self.insert_flags(Flags::HALT);`
			`}`
			`NOP => {`
			`next_ip = cursor.position();`
			`}`
			`_ => panic!("unknown instruction opcode: 0x{:04x}", op),`
			`}`

			`self.set_reg(IP, next_ip);`

			`Ok(())`
			`}`
			`}`