compiler-course/src/compiler/ir_generator.rs

use std::collections::{HashMap, HashSet};

use crate::compiler::{
    ast::{AstNode, Expression::*},
    ir::{
        IrInstruction,
        IrInstructionType::{self, *},
        IrVar,
    },
    symtab::SymTab,
    token::CodeLocation,
    variable::Type,
};

pub fn generate_ir(ast: &AstNode) -> Vec<IrInstruction> {
    let mut instructions = Vec::new();

    let mut symbols = SymTab::new();
    let mut labels = HashSet::new();
    let global_types = IrVar::new_global_types();
    let mut types = global_types.clone();
    for var in global_types.keys() {
        symbols.insert(&var.name, var.clone());
    }

    let result = visit_ast_node(
        ast,
        &mut types,
        &mut symbols,
        &mut instructions,
        &mut labels,
    );

    match types.get(&result) {
        Some(Type::Int) => {
            let loc = instructions.last().unwrap().loc;
            let fn_var = symbols.get("print_int").clone();
            let result_var = add_var(&Type::Bool, &mut types);

            instructions.push(IrInstruction::new(
                loc,
                Call(fn_var, vec![result], result_var),
            ));
        }
        Some(Type::Bool) => {
            let loc = instructions.last().unwrap().loc;
            let fn_var = symbols.get("print_bool").clone();
            let result_var = add_var(&Type::Bool, &mut types);

            instructions.push(IrInstruction::new(
                loc,
                Call(fn_var, vec![result], result_var),
            ));
        }
        _ => (),
    }

    instructions
}

fn add_var(var_type: &Type, types: &mut HashMap<IrVar, Type>) -> IrVar {
    let mut i = 1;
    let mut var = IrVar::new(&format!("x{}", i));

    while types.contains_key(&var) {
        i += 1;
        var = IrVar::new(&format!("x{}", i));
    }

    types.insert(var.clone(), var_type.clone());
    var
}

fn add_label(
    label: &str,
    loc: CodeLocation,
    labels: &mut HashSet<IrInstructionType>,
) -> IrInstruction {
    let mut i = 1;

    let mut instruction = IrInstructionType::Label(format!("{}{}", label, i));

    while labels.contains(&instruction) {
        i += 1;
        instruction = IrInstructionType::Label(format!("{}{}", label, i));
    }

    labels.insert(instruction.clone());
    IrInstruction::new(loc, instruction)
}

fn visit_ast_node(
    ast: &AstNode,
    types: &mut HashMap<IrVar, Type>,
    symbols: &mut SymTab<IrVar>,
    instructions: &mut Vec<IrInstruction>,
    labels: &mut HashSet<IrInstructionType>,
) -> IrVar {
    match &ast.expr {
        EmptyLiteral() => symbols.get("unit").clone(),
        IntLiteral(val) => {
            let var = add_var(&Type::Int, types);
            instructions.push(IrInstruction::new(ast.loc, LoadIntConst(*val, var.clone())));
            var
        }
        BoolLiteral(val) => {
            let var = add_var(&Type::Bool, types);
            instructions.push(IrInstruction {
                loc: ast.loc,
                instruction: LoadBoolConst(*val, var.clone()),
            });
            var
        }
        Identifier(name) => symbols.get(name).clone(),
        UnaryOp(op, expr) => {
            let op_var = symbols.get(&format!("unary_{op}")).clone();
            let expr_var = visit_ast_node(expr, types, symbols, instructions, labels);
            let result_var = add_var(&ast.node_type, types);

            instructions.push(IrInstruction::new(
                ast.loc,
                Call(op_var, vec![expr_var], result_var.clone()),
            ));

            result_var
        }
        BinaryOp(left, op, right) => match *op {
            "=" => todo!(),
            "and" => todo!(),
            "or" => todo!(),
            _ => {
                let op_var = symbols.get(op).clone();
                let left_var = visit_ast_node(left, types, symbols, instructions, labels);
                let right_var = visit_ast_node(right, types, symbols, instructions, labels);
                let result_var = add_var(&ast.node_type, types);

                instructions.push(IrInstruction::new(
                    ast.loc,
                    Call(op_var, vec![left_var, right_var], result_var.clone()),
                ));

                result_var
            }
        },
        VarDeclaration(_, _, _) => todo!(),
        Conditional(condition_expr, then_expr, else_expr) => match else_expr {
            Some(else_expr) => {
                let l_then = add_label("then", then_expr.loc, labels);
                let l_else = add_label("else", else_expr.loc, labels);
                let l_end = add_label("if_end", else_expr.loc, labels);

                let cond_var = visit_ast_node(condition_expr, types, symbols, instructions, labels);
                let result_var = add_var(&ast.node_type, types);

                instructions.push(IrInstruction::new(
                    condition_expr.loc,
                    CondJump(cond_var, Box::new(l_then.clone()), Box::new(l_else.clone())),
                ));

                instructions.push(l_then);
                let then_var = visit_ast_node(then_expr, types, symbols, instructions, labels);
                instructions.push(IrInstruction::new(
                    else_expr.loc,
                    Copy(then_var, result_var.clone()),
                ));
                instructions.push(IrInstruction::new(
                    else_expr.loc,
                    Jump(Box::new(l_end.clone())),
                ));

                instructions.push(l_else);
                let else_var = visit_ast_node(else_expr, types, symbols, instructions, labels);
                instructions.push(IrInstruction::new(
                    else_expr.loc,
                    Copy(else_var, result_var.clone()),
                ));
                instructions.push(l_end);

                result_var
            }
            None => {
                let l_then = add_label("then", then_expr.loc, labels);
                let l_end = add_label("if_end", then_expr.loc, labels);

                let cond_var = visit_ast_node(condition_expr, types, symbols, instructions, labels);

                instructions.push(IrInstruction::new(
                    condition_expr.loc,
                    CondJump(cond_var, Box::new(l_then.clone()), Box::new(l_end.clone())),
                ));

                instructions.push(l_then);
                visit_ast_node(then_expr, types, symbols, instructions, labels);
                instructions.push(l_end);

                symbols.get("unit").clone()
            }
        },
        While(_, _) => todo!(),
        FunCall(_, _) => todo!(),
        Block(_) => todo!(),
    }
}
Add unary ops and if-then-else to IR Generator 2025-02-05 19:42:55 +02:00			`use std::collections::{HashMap, HashSet};`
Add first part of IR Generator implementation 2025-02-05 17:16:17 +02:00
			`use crate::compiler::{`
			`ast::{AstNode, Expression::*},`
Add unary ops and if-then-else to IR Generator 2025-02-05 19:42:55 +02:00			`ir::{`
			`IrInstruction,`
			`IrInstructionType::{self, *},`
			`IrVar,`
			`},`
Add first part of IR Generator implementation 2025-02-05 17:16:17 +02:00			`symtab::SymTab,`
Add unary ops and if-then-else to IR Generator 2025-02-05 19:42:55 +02:00			`token::CodeLocation,`
Add first part of IR Generator implementation 2025-02-05 17:16:17 +02:00			`variable::Type,`
			`};`

			`pub fn generate_ir(ast: &AstNode) -> Vec<IrInstruction> {`
			`let mut instructions = Vec::new();`

			`let mut symbols = SymTab::new();`
Add unary ops and if-then-else to IR Generator 2025-02-05 19:42:55 +02:00			`let mut labels = HashSet::new();`
Add first part of IR Generator implementation 2025-02-05 17:16:17 +02:00			`let global_types = IrVar::new_global_types();`
			`let mut types = global_types.clone();`
			`for var in global_types.keys() {`
			`symbols.insert(&var.name, var.clone());`
			`}`

Add unary ops and if-then-else to IR Generator 2025-02-05 19:42:55 +02:00			`let result = visit_ast_node(`
			`ast,`
			`&mut types,`
			`&mut symbols,`
			`&mut instructions,`
			`&mut labels,`
			`);`
Add first part of IR Generator implementation 2025-02-05 17:16:17 +02:00
			`match types.get(&result) {`
			`Some(Type::Int) => {`
			`let loc = instructions.last().unwrap().loc;`
			`let fn_var = symbols.get("print_int").clone();`
Add unary ops and if-then-else to IR Generator 2025-02-05 19:42:55 +02:00			`let result_var = add_var(&Type::Bool, &mut types);`
Add first part of IR Generator implementation 2025-02-05 17:16:17 +02:00
			`instructions.push(IrInstruction::new(`
			`loc,`
Add unary ops and if-then-else to IR Generator 2025-02-05 19:42:55 +02:00			`Call(fn_var, vec![result], result_var),`
Add first part of IR Generator implementation 2025-02-05 17:16:17 +02:00			`));`
			`}`
			`Some(Type::Bool) => {`
			`let loc = instructions.last().unwrap().loc;`
			`let fn_var = symbols.get("print_bool").clone();`
Add unary ops and if-then-else to IR Generator 2025-02-05 19:42:55 +02:00			`let result_var = add_var(&Type::Bool, &mut types);`
Add first part of IR Generator implementation 2025-02-05 17:16:17 +02:00
			`instructions.push(IrInstruction::new(`
			`loc,`
Add unary ops and if-then-else to IR Generator 2025-02-05 19:42:55 +02:00			`Call(fn_var, vec![result], result_var),`
Add first part of IR Generator implementation 2025-02-05 17:16:17 +02:00			`));`
			`}`
			`_ => (),`
			`}`

			`instructions`
			`}`

			`fn add_var(var_type: &Type, types: &mut HashMap<IrVar, Type>) -> IrVar {`
			`let mut i = 1;`
Add unary ops and if-then-else to IR Generator 2025-02-05 19:42:55 +02:00			`let mut var = IrVar::new(&format!("x{}", i));`
Add first part of IR Generator implementation 2025-02-05 17:16:17 +02:00
			`while types.contains_key(&var) {`
			`i += 1;`
Add unary ops and if-then-else to IR Generator 2025-02-05 19:42:55 +02:00			`var = IrVar::new(&format!("x{}", i));`
Add first part of IR Generator implementation 2025-02-05 17:16:17 +02:00			`}`

			`types.insert(var.clone(), var_type.clone());`
			`var`
			`}`

Add unary ops and if-then-else to IR Generator 2025-02-05 19:42:55 +02:00			`fn add_label(`
			`label: &str,`
			`loc: CodeLocation,`
			`labels: &mut HashSet<IrInstructionType>,`
			`) -> IrInstruction {`
			`let mut i = 1;`

			`let mut instruction = IrInstructionType::Label(format!("{}{}", label, i));`

			`while labels.contains(&instruction) {`
			`i += 1;`
			`instruction = IrInstructionType::Label(format!("{}{}", label, i));`
			`}`

			`labels.insert(instruction.clone());`
			`IrInstruction::new(loc, instruction)`
			`}`

Add first part of IR Generator implementation 2025-02-05 17:16:17 +02:00			`fn visit_ast_node(`
			`ast: &AstNode,`
			`types: &mut HashMap<IrVar, Type>,`
			`symbols: &mut SymTab<IrVar>,`
			`instructions: &mut Vec<IrInstruction>,`
Add unary ops and if-then-else to IR Generator 2025-02-05 19:42:55 +02:00			`labels: &mut HashSet<IrInstructionType>,`
Add first part of IR Generator implementation 2025-02-05 17:16:17 +02:00			`) -> IrVar {`
			`match &ast.expr {`
			`EmptyLiteral() => symbols.get("unit").clone(),`
			`IntLiteral(val) => {`
			`let var = add_var(&Type::Int, types);`
			`instructions.push(IrInstruction::new(ast.loc, LoadIntConst(*val, var.clone())));`
			`var`
			`}`
			`BoolLiteral(val) => {`
			`let var = add_var(&Type::Bool, types);`
			`instructions.push(IrInstruction {`
			`loc: ast.loc,`
			`instruction: LoadBoolConst(*val, var.clone()),`
			`});`
			`var`
			`}`
			`Identifier(name) => symbols.get(name).clone(),`
Add unary ops and if-then-else to IR Generator 2025-02-05 19:42:55 +02:00			`UnaryOp(op, expr) => {`
			`let op_var = symbols.get(&format!("unary_{op}")).clone();`
			`let expr_var = visit_ast_node(expr, types, symbols, instructions, labels);`
			`let result_var = add_var(&ast.node_type, types);`

			`instructions.push(IrInstruction::new(`
			`ast.loc,`
			`Call(op_var, vec![expr_var], result_var.clone()),`
			`));`

			`result_var`
			`}`
Add first part of IR Generator implementation 2025-02-05 17:16:17 +02:00			`BinaryOp(left, op, right) => match *op {`
Add unary ops and if-then-else to IR Generator 2025-02-05 19:42:55 +02:00			`"=" => todo!(),`
			`"and" => todo!(),`
			`"or" => todo!(),`
Add first part of IR Generator implementation 2025-02-05 17:16:17 +02:00			`_ => {`
			`let op_var = symbols.get(op).clone();`
Add unary ops and if-then-else to IR Generator 2025-02-05 19:42:55 +02:00			`let left_var = visit_ast_node(left, types, symbols, instructions, labels);`
			`let right_var = visit_ast_node(right, types, symbols, instructions, labels);`
Add first part of IR Generator implementation 2025-02-05 17:16:17 +02:00			`let result_var = add_var(&ast.node_type, types);`

			`instructions.push(IrInstruction::new(`
			`ast.loc,`
			`Call(op_var, vec![left_var, right_var], result_var.clone()),`
			`));`

			`result_var`
			`}`
			`},`
			`VarDeclaration(_, _, _) => todo!(),`
Add unary ops and if-then-else to IR Generator 2025-02-05 19:42:55 +02:00			`Conditional(condition_expr, then_expr, else_expr) => match else_expr {`
			`Some(else_expr) => {`
			`let l_then = add_label("then", then_expr.loc, labels);`
			`let l_else = add_label("else", else_expr.loc, labels);`
			`let l_end = add_label("if_end", else_expr.loc, labels);`

			`let cond_var = visit_ast_node(condition_expr, types, symbols, instructions, labels);`
			`let result_var = add_var(&ast.node_type, types);`

			`instructions.push(IrInstruction::new(`
			`condition_expr.loc,`
			`CondJump(cond_var, Box::new(l_then.clone()), Box::new(l_else.clone())),`
			`));`

			`instructions.push(l_then);`
			`let then_var = visit_ast_node(then_expr, types, symbols, instructions, labels);`
			`instructions.push(IrInstruction::new(`
			`else_expr.loc,`
			`Copy(then_var, result_var.clone()),`
			`));`
			`instructions.push(IrInstruction::new(`
			`else_expr.loc,`
			`Jump(Box::new(l_end.clone())),`
			`));`

			`instructions.push(l_else);`
			`let else_var = visit_ast_node(else_expr, types, symbols, instructions, labels);`
			`instructions.push(IrInstruction::new(`
			`else_expr.loc,`
			`Copy(else_var, result_var.clone()),`
			`));`
			`instructions.push(l_end);`

			`result_var`
			`}`
			`None => {`
			`let l_then = add_label("then", then_expr.loc, labels);`
			`let l_end = add_label("if_end", then_expr.loc, labels);`

			`let cond_var = visit_ast_node(condition_expr, types, symbols, instructions, labels);`

			`instructions.push(IrInstruction::new(`
			`condition_expr.loc,`
			`CondJump(cond_var, Box::new(l_then.clone()), Box::new(l_end.clone())),`
			`));`

			`instructions.push(l_then);`
			`visit_ast_node(then_expr, types, symbols, instructions, labels);`
			`instructions.push(l_end);`

			`symbols.get("unit").clone()`
			`}`
			`},`
Add first part of IR Generator implementation 2025-02-05 17:16:17 +02:00			`While(_, _) => todo!(),`
			`FunCall(_, _) => todo!(),`
			`Block(_) => todo!(),`
			`}`
			`}`