use crate::{mismatched_types, runtime_error::KabelRuntimeError, vm_boolean_binary, wrong_type}; pub struct VM { ip: usize, pub chunk: Vec, pub stack: Vec, pub pool: Vec, pub lines: Vec<(usize, usize)>, // line #, repeats number of instructions text: Vec } impl VM { pub fn new(bytecode: Vec, lines: Vec<(usize, usize)>, pool: Vec, text: String) -> Self { Self { ip: 0, chunk: bytecode, stack: Vec::new(), pool, lines, text: text.lines().map(|s| s.to_string()).collect(), } } pub fn run(&mut self, output: &mut String) -> Result<(), KabelRuntimeError> { use Value::*; while self.ip < self.chunk.len() { match self.read() { 0x00 => { // CONSTANT let byte = self.read() as usize; self.stack.push(self.pool[byte].clone()); } 0x01 => { // ADD match (self.stack.pop().unwrap(), self.stack.pop().unwrap()) { (Num(v1), Num(v2)) => self.stack.push(Num(v1 + v2)), (Str(v1), Str(v2)) => { self.stack.push(Str(v1 + &v2)); }, (Bool(_v1), Bool(_v2)) => { return Err(wrong_type!(self, "Cannot add booleans")) } (v1, v2) => { return Err(mismatched_types!(self, "Mismatched types: {} and {}", v1.type_str(), v2.type_str())) } } } 0x02 => { // SUB match (self.stack.pop().unwrap(), self.stack.pop().unwrap()) { (Num(v1), Num(v2)) => self.stack.push(Num(v1 - v2)), (Str(_v1), Str(_v2)) => { return Err(wrong_type!(self, "Cannot subtract strings")) }, (Bool(_v1), Bool(_v2)) => { return Err(wrong_type!(self, "Cannot subtract booleans")) } (v1, v2) => { return Err(mismatched_types!(self, "Mismatched types: {} and {}", v1.type_str(), v2.type_str())) } } } 0x03 => { // MUL match (self.stack.pop().unwrap(), self.stack.pop().unwrap()) { (Num(v1), Num(v2)) => self.stack.push(Num(v1 * v2)), (Str(v1), Num(v2)) => { if v2.fract() == 0.0 { self.stack.push(Str(v1.repeat(v2 as usize))); } else { return Err(wrong_type!(self, "Number must be an integer")) } } (Str(_v1), Str(_v2)) => { return Err(wrong_type!(self, "Cannot multiply strings")) }, (Bool(_v1), Bool(_v2)) => { return Err(wrong_type!(self, "Cannot multiply booleans")) } (v1, v2) => { return Err(mismatched_types!(self, "Mismatched types: {} and {}", v1.type_str(), v2.type_str())) } } } 0x04 => { // DIV match (self.stack.pop().unwrap(), self.stack.pop().unwrap()) { (Num(v1), Num(v2)) => self.stack.push(Num(v1 / v2)), (Str(_v1), Str(_v2)) => { return Err(wrong_type!(self, "Cannot divide strings")) }, (Bool(_v1), Bool(_v2)) => { return Err(wrong_type!(self, "Cannot divide booleans")) } (v1, v2) => { return Err(mismatched_types!(self, "Mismatched types: {} and {}", v1.type_str(), v2.type_str())) } } } 0x05 => { // MOD match (self.stack.pop().unwrap(), self.stack.pop().unwrap()) { (Num(v1), Num(v2)) => self.stack.push(Num(v1 % v2)), (Str(_v1), Str(_v2)) => { return Err(wrong_type!(self, "Cannot perform modulus on strings")) }, (Bool(_v1), Bool(_v2)) => { return Err(wrong_type!(self, "Cannot perform modulus on booleans")) } (v1, v2) => { return Err(mismatched_types!(self, "Mismatched types: {} and {}", v1.type_str(), v2.type_str())) } } } // EQ 0x06 => vm_boolean_binary!(self, ==), // NE 0x07 => vm_boolean_binary!(self, !=), // GR 0x08 => vm_boolean_binary!(self, >), // GE 0x09 => vm_boolean_binary!(self, >=), // LS 0x0A => vm_boolean_binary!(self, <), // LE 0x0B => vm_boolean_binary!(self, <=), // OR 0x0C => match (self.stack.pop().unwrap(), self.stack.pop().unwrap()) { (Num(_v1), Num(_v2)) => { return Err(wrong_type!(self, "Cannot perform logical OR on numbers")) } (Str(_v1), Str(_v2)) => { return Err(wrong_type!(self, "Cannot perform logical OR on strings")) }, (Bool(v1), Bool(v2)) => self.stack.push(Bool(v1 || v2)), (v1, v2) => { return Err(mismatched_types!(self, "Mismatched types: {} and {}", v1.type_str(), v2.type_str())) } } // AND 0x0D => match (self.stack.pop().unwrap(), self.stack.pop().unwrap()) { (Num(_v1), Num(_v2)) => { return Err(wrong_type!(self, "Cannot perform logical AND on numbers")) } (Str(_v1), Str(_v2)) => { return Err(wrong_type!(self, "Cannot perform logical AND on strings")) }, (Bool(v1), Bool(v2)) => self.stack.push(Bool(v1 && v2)), (v1, v2) => { return Err(mismatched_types!(self, "Mismatched types: {} and {}", v1.type_str(), v2.type_str())) } } 0xFE => { // PRINT let value = self.stack.pop().unwrap(); match value { Num(v) => *output += &v.to_string(), Str(v) => *output += &v, Bool(v) => *output += &v.to_string(), } *output += "\n"; } _ => {} } } Ok(()) } pub fn read(&mut self) -> u8 { let byte = self.chunk[self.ip]; self.ip += 1; byte } pub fn find_line(&mut self) -> usize { // returns line # at ip let mut line_ip = 0; for (line, rep) in self.lines.clone() { if line_ip + rep > self.ip { return line; } line_ip += rep; } panic!("Something went wrong in finding line for error") } } #[derive(Debug, Clone)] pub enum Value { Num(f32), Str(String), Bool(bool), } impl Value { pub fn type_str(&self) -> String { match self { Value::Num(_) => "number".to_string(), Value::Str(_) => "string".to_string(), Value::Bool(_) => "bool".to_string(), } } }