use std::collections::HashMap;
use crate::llvm::{Builder, FnValue, FunctionPassManager, Module, Value};
use crate::parser::{ExprAST, FunctionAST, PrototypeAST};
use crate::Either;
type CodegenResult<T> = Result<T, String>;
/// Code generator from kaleidoscope AST to LLVM IR.
pub struct Codegen<'llvm, 'a> {
module: &'llvm Module,
builder: &'a Builder<'llvm>,
fpm: &'a FunctionPassManager<'llvm>,
}
impl<'llvm, 'a> Codegen<'llvm, 'a> {
/// Compile either a [`PrototypeAST`] or a [`FunctionAST`] into the LLVM `module`.
pub fn compile(
module: &'llvm Module,
compilee: Either<&PrototypeAST, &FunctionAST>,
) -> CodegenResult<FnValue<'llvm>> {
let cg = Codegen {
module,
builder: &Builder::with_ctx(module),
fpm: &FunctionPassManager::with_ctx(module),
};
let mut variables = HashMap::new();
match compilee {
Either::A(proto) => Ok(cg.codegen_prototype(proto)),
Either::B(func) => cg.codegen_function(func, &mut variables),
}
}
fn codegen_expr(
&self,
expr: &ExprAST,
named_values: &mut HashMap<&'llvm str, Value<'llvm>>,
) -> CodegenResult<Value<'llvm>> {
match expr {
ExprAST::Number(num) => Ok(self.module.type_f64().const_f64(*num)),
ExprAST::Variable(name) => match named_values.get(name.as_str()) {
Some(value) => Ok(*value),
None => Err("Unknown variable name".into()),
},
ExprAST::Binary(binop, lhs, rhs) => {
let l = self.codegen_expr(lhs, named_values)?;
let r = self.codegen_expr(rhs, named_values)?;
match binop {
'+' => Ok(self.builder.fadd(l, r)),
'-' => Ok(self.builder.fsub(l, r)),
'*' => Ok(self.builder.fmul(l, r)),
'<' => {
let res = self.builder.fcmpult(l, r);
// Turn bool into f64.
Ok(self.builder.uitofp(res, self.module.type_f64()))
}
_ => Err("invalid binary operator".into()),
}
}
ExprAST::Call(callee, args) => match self.module.get_fn(callee) {
Some(callee) => {
if callee.args() != args.len() {
return Err("Incorrect # arguments passed".into());
}
// Generate code for function argument expressions.
let mut args: Vec<Value<'_>> = args
.iter()
.map(|arg| self.codegen_expr(arg, named_values))
.collect::<CodegenResult<_>>()?;
Ok(self.builder.call(callee, &mut args))
}
None => Err("Unknown function referenced".into()),
},
}
}
fn codegen_prototype(&self, PrototypeAST(name, args): &PrototypeAST) -> FnValue<'llvm> {
let type_f64 = self.module.type_f64();
let mut doubles = Vec::new();
doubles.resize(args.len(), type_f64);
// Build the function type: fn(f64, f64, ..) -> f64
let ft = self.module.type_fn(&mut doubles, type_f64);
// Create the function declaration.
let f = self.module.add_fn(name, ft);
// Set the names of the function arguments.
for idx in 0..f.args() {
f.arg(idx).set_name(&args[idx]);
}
f
}
fn codegen_function(
&self,
FunctionAST(proto, body): &FunctionAST,
named_values: &mut HashMap<&'llvm str, Value<'llvm>>,
) -> CodegenResult<FnValue<'llvm>> {
let the_function = match self.module.get_fn(&proto.0) {
Some(f) => f,
None => self.codegen_prototype(proto),
};
if the_function.basic_blocks() > 0 {
return Err("Function cannot be redefined.".into());
}
// Create entry basic block to insert code.
let bb = self.module.append_basic_block(the_function);
self.builder.pos_at_end(bb);
// New scope, clear the map with the function args.
named_values.clear();
// Update the map with the current functions args.
for idx in 0..the_function.args() {
let arg = the_function.arg(idx);
named_values.insert(arg.get_name(), arg);
}
// Codegen function body.
if let Ok(ret) = self.codegen_expr(body, named_values) {
self.builder.ret(ret);
assert!(the_function.verify());
self.fpm.run(the_function);
Ok(the_function)
} else {
todo!("Failed to codegen function body, erase from module!");
}
}
}