use std::mem::replace; use crate::{ parse, value::Primitive, AnnotatedError, Chunk, ChunkError, DustError, Identifier, Instruction, Operation, Span, Value, ValueError, }; pub fn run(source: &str) -> Result, DustError> { let chunk = parse(source)?; let mut vm = Vm::new(chunk); vm.run() .map_err(|error| DustError::Runtime { error, source }) } #[derive(Debug, Eq, PartialEq)] pub struct Vm { ip: usize, chunk: Chunk, stack: Vec, } impl Vm { const STACK_LIMIT: usize = u16::MAX as usize; pub fn new(chunk: Chunk) -> Self { Self { ip: 0, chunk, stack: Vec::new(), } } pub fn run(&mut self) -> Result, VmError> { // DRY helper to get constant or register values for binary operations fn get_arguments( vm: &mut Vm, instruction: Instruction, position: Span, ) -> Result<(&Value, &Value), VmError> { let left = if instruction.b_is_constant() { vm.chunk.get_constant(instruction.b(), position)? } else { vm.get(instruction.b(), position)? }; let right = if instruction.c_is_constant() { vm.chunk.get_constant(instruction.c(), position)? } else { vm.get(instruction.c(), position)? }; Ok((left, right)) } while let Ok((instruction, position)) = self.read(Span(0, 0)).copied() { log::info!( "{} | {} | {} | {}", self.ip - 1, position, instruction.operation(), instruction .disassembly_info(Some(&self.chunk)) .0 .unwrap_or_default() ); match instruction.operation() { Operation::Move => { let to_register = instruction.a(); let from_register = instruction.b(); let value = self.take(from_register, to_register, position)?; self.set(to_register, value, position)?; } Operation::Close => { let from_register = instruction.b(); let to_register = instruction.c(); if self.stack.len() < to_register as usize { return Err(VmError::StackUnderflow { position }); } for register_index in from_register..to_register { self.stack[register_index as usize] = Register::Empty; } } Operation::LoadBoolean => { let to_register = instruction.a(); let boolean = instruction.b_as_boolean(); let skip = instruction.c_as_boolean(); let value = Value::boolean(boolean); self.set(to_register, value, position)?; if skip { self.ip += 1; } } Operation::LoadConstant => { let to_register = instruction.a(); let from_constant = instruction.b(); let jump = instruction.c_as_boolean(); self.set_constant(to_register, from_constant, position)?; if jump { self.ip += 1; } } Operation::LoadList => { let to_register = instruction.a(); let first_register = instruction.b(); let last_register = instruction.c(); let item_type = self.get(first_register, position)?.r#type(); let value = Value::list(first_register, last_register, item_type); self.set(to_register, value, position)?; } Operation::DefineLocal => { let from_register = instruction.a(); let to_local = instruction.b(); self.chunk.define_local(to_local, from_register, position)?; } Operation::GetLocal => { let to_register = instruction.a(); let local_index = instruction.b(); let local = self.chunk.get_local(local_index, position)?; let value = self.take(local.register_index, to_register, position)?; self.set(to_register, value, position)?; } Operation::SetLocal => { let register = instruction.a(); let local_index = instruction.b(); let local = self.chunk.get_local(local_index, position)?; if !local.is_mutable { return Err(VmError::CannotMutateImmutableLocal { identifier: local.identifier.clone(), position, }); } self.chunk.define_local(local_index, register, position)?; } Operation::Add => { let (left, right) = get_arguments(self, instruction, position)?; let sum = left .add(right) .map_err(|error| VmError::Value { error, position })?; self.set(instruction.a(), sum, position)?; } Operation::Subtract => { let (left, right) = get_arguments(self, instruction, position)?; let difference = left .subtract(right) .map_err(|error| VmError::Value { error, position })?; self.set(instruction.a(), difference, position)?; } Operation::Multiply => { let (left, right) = get_arguments(self, instruction, position)?; let product = left .multiply(right) .map_err(|error| VmError::Value { error, position })?; self.set(instruction.a(), product, position)?; } Operation::Divide => { let (left, right) = get_arguments(self, instruction, position)?; let quotient = left .divide(right) .map_err(|error| VmError::Value { error, position })?; self.set(instruction.a(), quotient, position)?; } Operation::Modulo => { let (left, right) = get_arguments(self, instruction, position)?; let remainder = left .modulo(right) .map_err(|error| VmError::Value { error, position })?; self.set(instruction.a(), remainder, position)?; } Operation::Test => { let register = instruction.a(); let test_value = instruction.c_as_boolean(); let value = self.get(register, position)?; let boolean = if let Value::Primitive(Primitive::Boolean(boolean)) = value { *boolean } else { return Err(VmError::ExpectedBoolean { found: value.clone(), position, }); }; if boolean != test_value { self.ip += 1; } } Operation::TestSet => { let to_register = instruction.a(); let argument = instruction.b(); let test_value = instruction.c_as_boolean(); let borrowed_value = self.get(argument, position)?; let boolean = if let Value::Primitive(Primitive::Boolean(boolean)) = borrowed_value { *boolean } else { return Err(VmError::ExpectedBoolean { found: borrowed_value.clone(), position, }); }; if boolean == test_value { let value = self.take(argument, to_register, position)?; self.set(to_register, value, position)?; } else { self.ip += 1; } } Operation::Equal => { debug_assert_eq!( self.chunk.get_instruction(self.ip, position)?.0.operation(), Operation::Jump ); let (left, right) = get_arguments(self, instruction, position)?; let equal_result = left .equal(right) .map_err(|error| VmError::Value { error, position })?; let boolean = if let Value::Primitive(Primitive::Boolean(boolean)) = equal_result { boolean } else { return Err(VmError::ExpectedBoolean { found: equal_result.clone(), position, }); }; let compare_to = instruction.a_as_boolean(); if boolean == compare_to { self.ip += 1; } else { let (jump, _) = *self.chunk.get_instruction(self.ip, position)?; let jump_distance = jump.a(); let is_positive = jump.b_as_boolean(); let new_ip = if is_positive { self.ip + jump_distance as usize } else { self.ip - jump_distance as usize }; self.ip = new_ip; } } Operation::Less => { debug_assert_eq!( self.chunk.get_instruction(self.ip, position)?.0.operation(), Operation::Jump ); let (left, right) = get_arguments(self, instruction, position)?; let less_result = left .less_than(right) .map_err(|error| VmError::Value { error, position })?; let boolean = if let Value::Primitive(Primitive::Boolean(boolean)) = less_result { boolean } else { return Err(VmError::ExpectedBoolean { found: less_result.clone(), position, }); }; let compare_to = instruction.a_as_boolean(); if boolean == compare_to { self.ip += 1; } else { let jump = self.chunk.get_instruction(self.ip, position)?.0; let jump_distance = jump.a(); let is_positive = jump.b_as_boolean(); let new_ip = if is_positive { self.ip + jump_distance as usize } else { self.ip - jump_distance as usize }; self.ip = new_ip; } } Operation::LessEqual => { debug_assert_eq!( self.chunk.get_instruction(self.ip, position)?.0.operation(), Operation::Jump ); let (left, right) = get_arguments(self, instruction, position)?; let less_or_equal_result = left .less_than_or_equal(right) .map_err(|error| VmError::Value { error, position })?; let boolean = if let Value::Primitive(Primitive::Boolean(boolean)) = less_or_equal_result { boolean } else { return Err(VmError::ExpectedBoolean { found: less_or_equal_result.clone(), position, }); }; let compare_to = instruction.a_as_boolean(); if boolean == compare_to { self.ip += 1; } else { let jump = self.chunk.get_instruction(self.ip, position)?.0; let jump_distance = jump.a(); let is_positive = jump.b_as_boolean(); let new_ip = if is_positive { self.ip + jump_distance as usize } else { self.ip - jump_distance as usize }; self.ip = new_ip; } } Operation::Negate => { let value = if instruction.b_is_constant() { self.chunk.get_constant(instruction.b(), position)? } else { self.get(instruction.b(), position)? }; let negated = value .negate() .map_err(|error| VmError::Value { error, position })?; self.set(instruction.a(), negated, position)?; } Operation::Not => { let value = if instruction.b_is_constant() { self.chunk.get_constant(instruction.b(), position)? } else { self.get(instruction.b(), position)? }; let not = value .not() .map_err(|error| VmError::Value { error, position })?; self.set(instruction.a(), not, position)?; } Operation::Jump => { let offset = instruction.b(); let is_positive = instruction.c_as_boolean(); let new_ip = if is_positive { self.ip + offset as usize } else { self.ip - (offset + 1) as usize }; self.ip = new_ip; } Operation::Call => { let function_index = instruction.a(); let argument_count = instruction.b(); let function = if let Value::Primitive(Primitive::Function(function)) = self.get(function_index, position)?.clone() { function } else { todo!() }; let mut function_vm = Vm::new(function.chunk); let first_argument_index = function_index + 1; let last_argument_index = first_argument_index + argument_count; for argument_index in first_argument_index..=last_argument_index { let argument = self.empty(argument_index, position)?; function_vm.stack.push(Register::Value(argument)); } let return_value = function_vm.run()?; if let Some(value) = return_value { self.set(function_index, value, position)?; } } Operation::Return => { let should_return_value = instruction.b_as_boolean(); let top_of_stack = (self.stack.len() - 1) as u8; return if should_return_value { let value = self.empty(top_of_stack, position)?; Ok(Some(value)) } else { Ok(None) }; } } } Ok(None) } fn set(&mut self, index: u8, value: Value, position: Span) -> Result<(), VmError> { let length = self.stack.len(); let index = index as usize; if length == Self::STACK_LIMIT { return Err(VmError::StackOverflow { position }); } if index == length { log::trace!("Push register {index} with value {value}"); self.stack.push(Register::Value(value)); return Ok(()); } if index < length { log::trace!("Replace register {index} with value {value}"); self.stack[index] = Register::Value(value); return Ok(()); } Err(VmError::SkippedRegister { index, length: self.stack.len(), position, }) } fn set_constant( &mut self, index: u8, constant_index: u8, position: Span, ) -> Result<(), VmError> { let length = self.stack.len(); let index = index as usize; if length == Self::STACK_LIMIT { return Err(VmError::StackOverflow { position }); } if index == length { log::trace!("Push register {index} with constant {constant_index}"); self.stack.push(Register::Constant(constant_index)); return Ok(()); } if index < length { log::trace!("Replace register {index} with constant {constant_index}"); self.stack[index] = Register::Constant(constant_index); return Ok(()); } Err(VmError::SkippedRegister { index, length: self.stack.len(), position, }) } pub fn get(&self, index: u8, position: Span) -> Result<&Value, VmError> { let index = index as usize; let register = self .stack .get(index) .ok_or_else(|| VmError::RegisterIndexOutOfBounds { position })?; match register { Register::Value(value) => Ok(value), Register::Pointer(register_index) => { let value = self.get(*register_index, position)?; Ok(value) } Register::Constant(constant_index) => { let value = self.chunk.get_constant(*constant_index, position)?; Ok(value) } Register::Empty => Err(VmError::EmptyRegister { index, position }), } } fn take(&mut self, index: u8, point_to: u8, position: Span) -> Result { let index = index as usize; let register = replace(&mut self.stack[index], Register::Pointer(point_to)); match register { Register::Value(value) => Ok(value), Register::Pointer(register_index) => { let value = self.take(register_index, point_to, position)?; Ok(value) } Register::Constant(constant_index) => { let value = self.chunk.take_constant(constant_index, position)?; Ok(value) } Register::Empty => Err(VmError::EmptyRegister { index, position }), } } fn empty(&mut self, index: u8, position: Span) -> Result { let index = index as usize; if index >= self.stack.len() { return Err(VmError::RegisterIndexOutOfBounds { position }); } let register = replace(&mut self.stack[index], Register::Empty); match register { Register::Value(value) => Ok(value), Register::Pointer(register_index) => { let value = self.empty(register_index, position)?; Ok(value) } Register::Constant(constant_index) => { let value = self.chunk.take_constant(constant_index, position)?; Ok(value) } Register::Empty => Err(VmError::EmptyRegister { index, position }), } } fn read(&mut self, position: Span) -> Result<&(Instruction, Span), VmError> { let current = self.chunk.get_instruction(self.ip, position)?; self.ip += 1; Ok(current) } } #[derive(Debug, Eq, PartialEq)] enum Register { Empty, Value(Value), Pointer(u8), Constant(u8), } #[derive(Debug, Clone, PartialEq)] pub enum VmError { CannotMutateImmutableLocal { identifier: Identifier, position: Span, }, EmptyRegister { index: usize, position: Span, }, ExpectedBoolean { found: Value, position: Span, }, RegisterIndexOutOfBounds { position: Span, }, InvalidInstruction { instruction: Instruction, position: Span, }, SkippedRegister { index: usize, length: usize, position: Span, }, StackOverflow { position: Span, }, StackUnderflow { position: Span, }, UndefinedVariable { identifier: Identifier, position: Span, }, // Wrappers for foreign errors Chunk(ChunkError), Value { error: ValueError, position: Span, }, } impl From for VmError { fn from(error: ChunkError) -> Self { Self::Chunk(error) } } impl AnnotatedError for VmError { fn title() -> &'static str { "Runtime Error" } fn description(&self) -> &'static str { match self { Self::CannotMutateImmutableLocal { .. } => "Cannot mutate immutable variable", Self::EmptyRegister { .. } => "Empty register", Self::ExpectedBoolean { .. } => "Expected boolean", Self::RegisterIndexOutOfBounds { .. } => "Register index out of bounds", Self::InvalidInstruction { .. } => "Invalid instruction", Self::SkippedRegister { .. } => "Skipped register", Self::StackOverflow { .. } => "Stack overflow", Self::StackUnderflow { .. } => "Stack underflow", Self::UndefinedVariable { .. } => "Undefined variable", Self::Chunk(error) => error.description(), Self::Value { .. } => "Value error", } } fn details(&self) -> Option { match self { Self::EmptyRegister { index, .. } => Some(format!("Register {index} is empty")), Self::UndefinedVariable { identifier, .. } => { Some(format!("{identifier} is not in scope")) } Self::Chunk(error) => error.details(), Self::Value { error, .. } => Some(error.to_string()), _ => None, } } fn position(&self) -> Span { match self { Self::CannotMutateImmutableLocal { position, .. } => *position, Self::EmptyRegister { position, .. } => *position, Self::ExpectedBoolean { position, .. } => *position, Self::RegisterIndexOutOfBounds { position } => *position, Self::InvalidInstruction { position, .. } => *position, Self::SkippedRegister { position, .. } => *position, Self::StackUnderflow { position } => *position, Self::StackOverflow { position } => *position, Self::UndefinedVariable { position, .. } => *position, Self::Chunk(error) => error.position(), Self::Value { position, .. } => *position, } } }