dust/dust-lang/src/vm.rs

use crate::{
    dust_error::AnnotatedError, parse, Chunk, ChunkError, DustError, Identifier, Instruction,
    Operation, Span, Value, ValueError,
};

pub fn run(source: &str) -> Result<Option<Value>, 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 {
    chunk: Chunk,
    ip: usize,
    register_stack: Vec<Option<Value>>,
}

impl Vm {
    const STACK_LIMIT: usize = u16::MAX as usize;

    pub fn new(chunk: Chunk) -> Self {
        Self {
            chunk,
            ip: 0,
            register_stack: Vec::new(),
        }
    }

    pub fn run(&mut self) -> Result<Option<Value>, VmError> {
        while let Ok((instruction, position)) = self.read(Span(0, 0)).copied() {
            log::trace!("Running instruction {instruction} at {position}");

            match instruction.operation {
                Operation::Move => todo!(),
                Operation::Close => todo!(),
                Operation::LoadConstant => {
                    let register_index = instruction.to_register as usize;
                    let constant_index = u16::from_le_bytes(instruction.arguments);
                    let value = self.chunk.use_constant(constant_index, position)?;

                    self.insert(value, register_index, position)?;
                }
                Operation::DeclareVariable => {
                    let register_index = instruction.to_register as usize;
                    let identifier_index = u16::from_le_bytes(instruction.arguments) as usize;
                    let value = self.take(identifier_index, position)?;

                    self.insert(value, register_index, position)?;
                }
                Operation::GetVariable => {
                    let identifier_index = u16::from_le_bytes(instruction.arguments) as usize;
                    let value = self.take(identifier_index, position)?;

                    self.insert(value, identifier_index, position)?;
                }
                Operation::SetVariable => todo!(),
                Operation::Add => {
                    let left = self.take(instruction.arguments[0] as usize, position)?;
                    let right = self.take(instruction.arguments[1] as usize, position)?;
                    let sum = left
                        .add(&right)
                        .map_err(|error| VmError::Value { error, position })?;

                    self.insert(sum, instruction.to_register as usize, position)?;
                }
                Operation::Subtract => {
                    let left = self.take(instruction.arguments[0] as usize, position)?;
                    let right = self.take(instruction.arguments[1] as usize, position)?;
                    let difference = left
                        .subtract(&right)
                        .map_err(|error| VmError::Value { error, position })?;

                    self.insert(difference, instruction.to_register as usize, position)?;
                }
                Operation::Multiply => {
                    let left = self.take(instruction.arguments[0] as usize, position)?;
                    let right = self.take(instruction.arguments[1] as usize, position)?;
                    let product = left
                        .multiply(&right)
                        .map_err(|error| VmError::Value { error, position })?;

                    self.insert(product, instruction.to_register as usize, position)?;
                }
                Operation::Divide => {
                    let left = self.take(instruction.arguments[0] as usize, position)?;
                    let right = self.take(instruction.arguments[1] as usize, position)?;
                    let quotient = left
                        .divide(&right)
                        .map_err(|error| VmError::Value { error, position })?;

                    self.insert(quotient, instruction.to_register as usize, position)?;
                }
                Operation::Negate => {
                    let value = self.take(instruction.arguments[0] as usize, position)?;
                    let negated = value
                        .negate()
                        .map_err(|error| VmError::Value { error, position })?;

                    self.insert(negated, instruction.to_register as usize, position)?;
                }
                Operation::Return => {
                    let value = self.pop(position)?;

                    return Ok(Some(value));
                }
            }
        }

        Ok(None)
    }

    fn insert(&mut self, value: Value, index: usize, position: Span) -> Result<(), VmError> {
        if self.register_stack.len() == Self::STACK_LIMIT {
            Err(VmError::StackOverflow { position })
        } else {
            if index == self.register_stack.len() {
                self.register_stack.push(Some(value));
            } else {
                self.register_stack[index] = Some(value);
            }

            Ok(())
        }
    }

    fn take(&mut self, index: usize, position: Span) -> Result<Value, VmError> {
        if let Some(register) = self.register_stack.get_mut(index) {
            let value = register
                .clone()
                .ok_or(VmError::EmptyRegister { index, position })?;

            Ok(value)
        } else {
            Err(VmError::RegisterIndexOutOfBounds { position })
        }
    }

    fn pop(&mut self, position: Span) -> Result<Value, VmError> {
        if let Some(register) = self.register_stack.pop() {
            let value = register.ok_or(VmError::EmptyRegister {
                index: self.register_stack.len().saturating_sub(1),
                position,
            })?;

            Ok(value)
        } else {
            Err(VmError::StackUnderflow { position })
        }
    }

    fn read(&mut self, position: Span) -> Result<&(Instruction, Span), VmError> {
        let current = self.chunk.get_code(self.ip, position)?;

        self.ip += 1;

        Ok(current)
    }
}

#[derive(Debug, Clone, PartialEq)]
pub enum VmError {
    EmptyRegister {
        index: usize,
        position: Span,
    },
    RegisterIndexOutOfBounds {
        position: Span,
    },
    InvalidInstruction {
        instruction: Instruction,
        position: Span,
    },
    StackOverflow {
        position: Span,
    },
    StackUnderflow {
        position: Span,
    },
    UndeclaredVariable {
        position: Span,
    },
    UndefinedVariable {
        identifier: Identifier,
        position: Span,
    },

    // Wrappers for foreign errors
    Chunk(ChunkError),
    Value {
        error: ValueError,
        position: Span,
    },
}

impl From<ChunkError> for VmError {
    fn from(v: ChunkError) -> Self {
        Self::Chunk(v)
    }
}

impl AnnotatedError for VmError {
    fn title() -> &'static str {
        "Runtime Error"
    }

    fn description(&self) -> &'static str {
        match self {
            Self::EmptyRegister { .. } => "Empty register",
            Self::RegisterIndexOutOfBounds { .. } => "Register index out of bounds",
            Self::InvalidInstruction { .. } => "Invalid instruction",
            Self::StackOverflow { .. } => "Stack overflow",
            Self::StackUnderflow { .. } => "Stack underflow",
            Self::UndeclaredVariable { .. } => "Undeclared variable",
            Self::UndefinedVariable { .. } => "Undefined variable",
            Self::Chunk(_) => "Chunk error",
            Self::Value { .. } => "Value error",
        }
    }

    fn details(&self) -> Option<String> {
        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::EmptyRegister { position, .. } => *position,
            Self::RegisterIndexOutOfBounds { position } => *position,
            Self::InvalidInstruction { position, .. } => *position,
            Self::StackUnderflow { position } => *position,
            Self::StackOverflow { position } => *position,
            Self::UndeclaredVariable { position } => *position,
            Self::UndefinedVariable { position, .. } => *position,
            Self::Chunk(error) => error.position(),
            Self::Value { position, .. } => *position,
        }
    }
}
Reimplement the Parser and VM with a register-based VM 2024-09-12 04:39:31 +00:00			`use crate::{`
			`dust_error::AnnotatedError, parse, Chunk, ChunkError, DustError, Identifier, Instruction,`
			`Operation, Span, Value, ValueError,`
			`};`

			`pub fn run(source: &str) -> Result<Option<Value>, 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 {`
			`chunk: Chunk,`
			`ip: usize,`
			`register_stack: Vec<Option<Value>>,`
			`}`

			`impl Vm {`
			`const STACK_LIMIT: usize = u16::MAX as usize;`

			`pub fn new(chunk: Chunk) -> Self {`
			`Self {`
			`chunk,`
			`ip: 0,`
			`register_stack: Vec::new(),`
			`}`
			`}`

			`pub fn run(&mut self) -> Result<Option<Value>, VmError> {`
			`while let Ok((instruction, position)) = self.read(Span(0, 0)).copied() {`
			`log::trace!("Running instruction {instruction} at {position}");`

			`match instruction.operation {`
			`Operation::Move => todo!(),`
			`Operation::Close => todo!(),`
			`Operation::LoadConstant => {`
			`let register_index = instruction.to_register as usize;`
			`let constant_index = u16::from_le_bytes(instruction.arguments);`
			`let value = self.chunk.use_constant(constant_index, position)?;`

			`self.insert(value, register_index, position)?;`
			`}`
Refactor and improve the VM, Parser, and Lexer 2024-09-12 09:08:55 +00:00			`Operation::DeclareVariable => {`
			`let register_index = instruction.to_register as usize;`
			`let identifier_index = u16::from_le_bytes(instruction.arguments) as usize;`
			`let value = self.take(identifier_index, position)?;`

			`self.insert(value, register_index, position)?;`
			`}`
			`Operation::GetVariable => {`
			`let identifier_index = u16::from_le_bytes(instruction.arguments) as usize;`
			`let value = self.take(identifier_index, position)?;`

			`self.insert(value, identifier_index, position)?;`
			`}`
Reimplement the Parser and VM with a register-based VM 2024-09-12 04:39:31 +00:00			`Operation::SetVariable => todo!(),`
			`Operation::Add => {`
			`let left = self.take(instruction.arguments[0] as usize, position)?;`
			`let right = self.take(instruction.arguments[1] as usize, position)?;`
			`let sum = left`
			`.add(&right)`
			`.map_err(\|error\| VmError::Value { error, position })?;`

			`self.insert(sum, instruction.to_register as usize, position)?;`
			`}`
			`Operation::Subtract => {`
			`let left = self.take(instruction.arguments[0] as usize, position)?;`
			`let right = self.take(instruction.arguments[1] as usize, position)?;`
			`let difference = left`
			`.subtract(&right)`
			`.map_err(\|error\| VmError::Value { error, position })?;`

			`self.insert(difference, instruction.to_register as usize, position)?;`
			`}`
			`Operation::Multiply => {`
			`let left = self.take(instruction.arguments[0] as usize, position)?;`
			`let right = self.take(instruction.arguments[1] as usize, position)?;`
			`let product = left`
			`.multiply(&right)`
			`.map_err(\|error\| VmError::Value { error, position })?;`

			`self.insert(product, instruction.to_register as usize, position)?;`
			`}`
			`Operation::Divide => {`
			`let left = self.take(instruction.arguments[0] as usize, position)?;`
			`let right = self.take(instruction.arguments[1] as usize, position)?;`
			`let quotient = left`
			`.divide(&right)`
			`.map_err(\|error\| VmError::Value { error, position })?;`

			`self.insert(quotient, instruction.to_register as usize, position)?;`
			`}`
			`Operation::Negate => {`
			`let value = self.take(instruction.arguments[0] as usize, position)?;`
			`let negated = value`
			`.negate()`
			`.map_err(\|error\| VmError::Value { error, position })?;`

			`self.insert(negated, instruction.to_register as usize, position)?;`
			`}`
			`Operation::Return => {`
			`let value = self.pop(position)?;`

			`return Ok(Some(value));`
			`}`
			`}`
			`}`

			`Ok(None)`
			`}`

			`fn insert(&mut self, value: Value, index: usize, position: Span) -> Result<(), VmError> {`
			`if self.register_stack.len() == Self::STACK_LIMIT {`
			`Err(VmError::StackOverflow { position })`
			`} else {`
Refactor and improve the VM, Parser, and Lexer 2024-09-12 09:08:55 +00:00			`if index == self.register_stack.len() {`
			`self.register_stack.push(Some(value));`
			`} else {`
			`self.register_stack[index] = Some(value);`
			`}`
Reimplement the Parser and VM with a register-based VM 2024-09-12 04:39:31 +00:00
			`Ok(())`
			`}`
			`}`

Refactor and improve the VM, Parser, and Lexer 2024-09-12 09:08:55 +00:00			`fn take(&mut self, index: usize, position: Span) -> Result<Value, VmError> {`
Reimplement the Parser and VM with a register-based VM 2024-09-12 04:39:31 +00:00			`if let Some(register) = self.register_stack.get_mut(index) {`
			`let value = register`
Refactor and improve the VM, Parser, and Lexer 2024-09-12 09:08:55 +00:00			`.clone()`
Reimplement the Parser and VM with a register-based VM 2024-09-12 04:39:31 +00:00			`.ok_or(VmError::EmptyRegister { index, position })?;`

			`Ok(value)`
			`} else {`
			`Err(VmError::RegisterIndexOutOfBounds { position })`
			`}`
			`}`

			`fn pop(&mut self, position: Span) -> Result<Value, VmError> {`
			`if let Some(register) = self.register_stack.pop() {`
Refactor and improve the VM, Parser, and Lexer 2024-09-12 09:08:55 +00:00			`let value = register.ok_or(VmError::EmptyRegister {`
			`index: self.register_stack.len().saturating_sub(1),`
			`position,`
			`})?;`
Reimplement the Parser and VM with a register-based VM 2024-09-12 04:39:31 +00:00
			`Ok(value)`
			`} else {`
			`Err(VmError::StackUnderflow { position })`
			`}`
			`}`

			`fn read(&mut self, position: Span) -> Result<&(Instruction, Span), VmError> {`
			`let current = self.chunk.get_code(self.ip, position)?;`

			`self.ip += 1;`

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

			`#[derive(Debug, Clone, PartialEq)]`
			`pub enum VmError {`
			`EmptyRegister {`
			`index: usize,`
			`position: Span,`
			`},`
			`RegisterIndexOutOfBounds {`
			`position: Span,`
			`},`
			`InvalidInstruction {`
			`instruction: Instruction,`
			`position: Span,`
			`},`
			`StackOverflow {`
			`position: Span,`
			`},`
			`StackUnderflow {`
			`position: Span,`
			`},`
			`UndeclaredVariable {`
			`position: Span,`
			`},`
			`UndefinedVariable {`
			`identifier: Identifier,`
			`position: Span,`
			`},`

			`// Wrappers for foreign errors`
			`Chunk(ChunkError),`
			`Value {`
			`error: ValueError,`
			`position: Span,`
			`},`
			`}`

			`impl From<ChunkError> for VmError {`
			`fn from(v: ChunkError) -> Self {`
			`Self::Chunk(v)`
			`}`
			`}`

			`impl AnnotatedError for VmError {`
			`fn title() -> &'static str {`
			`"Runtime Error"`
			`}`

			`fn description(&self) -> &'static str {`
			`match self {`
			`Self::EmptyRegister { .. } => "Empty register",`
			`Self::RegisterIndexOutOfBounds { .. } => "Register index out of bounds",`
			`Self::InvalidInstruction { .. } => "Invalid instruction",`
			`Self::StackOverflow { .. } => "Stack overflow",`
			`Self::StackUnderflow { .. } => "Stack underflow",`
			`Self::UndeclaredVariable { .. } => "Undeclared variable",`
			`Self::UndefinedVariable { .. } => "Undefined variable",`
			`Self::Chunk(_) => "Chunk error",`
			`Self::Value { .. } => "Value error",`
			`}`
			`}`

			`fn details(&self) -> Option<String> {`
			`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::EmptyRegister { position, .. } => *position,`
			`Self::RegisterIndexOutOfBounds { position } => *position,`
			`Self::InvalidInstruction { position, .. } => *position,`
			`Self::StackUnderflow { position } => *position,`
			`Self::StackOverflow { position } => *position,`
			`Self::UndeclaredVariable { position } => *position,`
			`Self::UndefinedVariable { position, .. } => *position,`
			`Self::Chunk(error) => error.position(),`
			`Self::Value { position, .. } => *position,`
			`}`
			`}`
			`}`