use std::collections::HashMap;
use ast::{BinaryOp, ModuleStatement, Span, WhileStmt};
use common::{BodyBuilder, BuildCtx};
use edlang_ast as ast;
use edlang_ir as ir;
use ir::{
AdtBody, AdtVariant, BasicBlock, Body, DefId, Local, LocalKind, Operand, Place, PlaceElem,
ProgramBody, RValue, Statement, StatementKind, SwitchTarget, Terminator, TypeInfo, TypeKind,
};
use tracing::trace;
mod common;
mod prepass;
pub fn lower_modules(modules: &[ast::Module]) -> ProgramBody {
let mut ctx = BuildCtx::default();
for module in modules {
ctx = prepass::prepass_module(ctx, module);
}
for module in modules {
ctx = prepass::prepass_imports(ctx, module);
}
for mod_def in modules {
let id = *ctx
.body
.top_level_module_names
.get(&mod_def.name.name)
.expect("module should exist");
ctx = lower_module(ctx, mod_def, id);
}
ctx.body
}
fn lower_module(mut ctx: BuildCtx, module: &ast::Module, id: DefId) -> BuildCtx {
for content in &module.contents {
match content {
ModuleStatement::Constant(_) => todo!(),
ModuleStatement::Struct(info) => {
ctx = lower_struct(ctx, info, id);
}
_ => {}
}
}
let body = ctx.body.modules.get(&id).unwrap();
for content in &module.contents {
if let ModuleStatement::Function(fn_def) = content {
let fn_id = *body.symbols.functions.get(&fn_def.name.name).unwrap();
let mut args = Vec::new();
let ret_type;
for arg in &fn_def.params {
let ty = lower_type(&ctx, &arg.arg_type, id);
args.push(ty);
}
if let Some(ty) = &fn_def.return_type {
ret_type = lower_type(&ctx, ty, id);
} else {
ret_type = TypeInfo {
span: None,
kind: ir::TypeKind::Unit,
};
}
ctx.body.function_signatures.insert(fn_id, (args, ret_type));
}
}
for content in &module.contents {
match content {
ModuleStatement::Function(fn_def) => {
ctx = lower_function(ctx, fn_def, id);
}
ModuleStatement::Module(_mod_def) => {}
_ => {}
}
}
ctx
}
fn lower_struct(mut ctx: BuildCtx, info: &ast::Struct, module_id: DefId) -> BuildCtx {
let mut body = AdtBody {
def_id: {
let body = ctx.body.modules.get(&module_id).unwrap();
*body.symbols.structs.get(&info.name.name).unwrap()
},
is_pub: true, name: info.name.name.clone(),
variants: Vec::new(),
name_to_idx: Default::default(),
span: info.span,
};
for field in &info.fields {
let variant = AdtVariant {
def_id: ctx.gen.next_defid(),
name: field.name.name.clone(),
ty: lower_type(&ctx, &field.r#type, module_id),
};
body.variants.push(variant);
body.name_to_idx
.insert(field.name.name.clone(), body.variants.len() - 1);
}
ctx.body.structs.insert(body.def_id, body);
ctx
}
fn lower_function(ctx: BuildCtx, func: &ast::Function, module_id: DefId) -> BuildCtx {
let mut builder = BodyBuilder {
body: Body {
blocks: Default::default(),
locals: Default::default(),
name: func.name.name.clone(),
def_id: {
let body = ctx.body.modules.get(&module_id).unwrap();
*body.symbols.functions.get(&func.name.name).unwrap()
},
is_pub: func.is_public || func.name.name == "main",
is_extern: func.is_extern,
fn_span: func.span,
},
local_module: module_id,
ret_local: 0,
name_to_local: HashMap::new(),
statements: Vec::new(),
ctx,
};
let fn_id = builder.body.def_id;
let (args_ty, ret_ty) = builder
.ctx
.body
.function_signatures
.get(&fn_id)
.unwrap()
.clone();
builder.ret_local = builder.body.locals.len();
builder.body.locals.push(Local::new(
None,
LocalKind::ReturnPointer,
ret_ty.clone(),
None,
false,
));
for (arg, ty) in func.params.iter().zip(args_ty) {
builder
.name_to_local
.insert(arg.name.name.clone(), builder.body.locals.len());
builder.body.locals.push(Local::new(
Some(arg.name.span),
LocalKind::Arg,
ty,
Some(arg.name.name.clone()),
false,
));
}
for stmt in &func.body.body {
if let ast::Statement::Let(info) = stmt {
let ty = lower_type(&builder.ctx, &info.r#type, builder.local_module);
builder
.name_to_local
.insert(info.name.name.clone(), builder.body.locals.len());
builder.body.locals.push(Local::new(
Some(info.name.span),
LocalKind::Temp,
ty,
Some(info.name.name.clone()),
info.is_mut,
));
}
}
for stmt in &func.body.body {
lower_statement(&mut builder, stmt, &ret_ty.kind);
}
if !builder.statements.is_empty() {
let statements = std::mem::take(&mut builder.statements);
builder.body.blocks.push(BasicBlock {
statements: statements.into(),
terminator: Terminator::Return,
terminator_span: None,
});
}
let (mut ctx, body) = (builder.ctx, builder.body);
ctx.unresolved_function_signatures.remove(&body.def_id);
ctx.body.functions.insert(body.def_id, body);
ctx
}
fn lower_statement(builder: &mut BodyBuilder, info: &ast::Statement, ret_type: &TypeKind) {
match info {
ast::Statement::Let(info) => lower_let(builder, info),
ast::Statement::Assign(info) => lower_assign(builder, info),
ast::Statement::For(_) => todo!(),
ast::Statement::While(info) => lower_while(builder, info, ret_type),
ast::Statement::If(info) => lower_if_stmt(builder, info, ret_type),
ast::Statement::Return(info) => lower_return(builder, info, ret_type),
ast::Statement::FnCall(info) => {
lower_fn_call(builder, info);
}
}
}
fn lower_while(builder: &mut BodyBuilder, info: &WhileStmt, ret_type: &TypeKind) {
let statements = std::mem::take(&mut builder.statements);
builder.body.blocks.push(BasicBlock {
statements: statements.into(),
terminator: Terminator::Target(builder.body.blocks.len() + 1),
terminator_span: Some(info.block.span),
});
let (discriminator, discriminator_type, disc_span) = lower_expr(builder, &info.condition, None);
let local = builder.add_temp_local(TypeKind::Bool);
let place = Place {
local,
projection: Default::default(),
};
builder.statements.push(Statement {
span: Some(disc_span),
kind: StatementKind::Assign(place.clone(), discriminator),
});
let check_block_idx = builder.body.blocks.len();
let statements = std::mem::take(&mut builder.statements);
builder.body.blocks.push(BasicBlock {
statements: statements.into(),
terminator: Terminator::Unreachable,
terminator_span: Some(info.block.span),
});
let first_then_block_idx = builder.body.blocks.len();
for stmt in &info.block.body {
lower_statement(builder, stmt, ret_type);
}
let last_then_block_idx = if !matches!(
builder.body.blocks.last().unwrap().terminator,
Terminator::Return
) {
builder.body.blocks.len();
let statements = std::mem::take(&mut builder.statements);
let idx = builder.body.blocks.len();
builder.body.blocks.push(BasicBlock {
statements: statements.into(),
terminator: Terminator::Unreachable,
terminator_span: Some(Span::new(info.block.span.hi, info.block.span.hi)),
});
Some(idx)
} else {
None
};
let otherwise_block_idx = builder.body.blocks.len();
let targets = SwitchTarget {
values: vec![discriminator_type.get_falsy_value()],
targets: vec![otherwise_block_idx, first_then_block_idx],
};
let kind = Terminator::SwitchInt {
discriminator: Operand::Move(place),
targets,
};
builder.body.blocks[check_block_idx].terminator = kind;
if let Some(last_then_block_idx) = last_then_block_idx {
builder.body.blocks[last_then_block_idx].terminator = Terminator::Target(check_block_idx);
}
}
fn lower_if_stmt(builder: &mut BodyBuilder, info: &ast::IfStmt, ret_type: &TypeKind) {
let cond_ty = find_expr_type(builder, &info.condition).expect("coouldnt find cond type");
let (condition, condition_ty, cond_span) = lower_expr(builder, &info.condition, Some(&cond_ty));
let local = builder.add_temp_local(TypeKind::Bool);
let place = Place {
local,
projection: vec![].into(),
};
builder.statements.push(Statement {
span: Some(cond_span),
kind: StatementKind::Assign(place.clone(), condition),
});
let current_block_idx = builder.body.blocks.len();
let statements = std::mem::take(&mut builder.statements);
builder.body.blocks.push(BasicBlock {
statements: statements.into(),
terminator: Terminator::Unreachable,
terminator_span: Some(info.span),
});
let first_then_block_idx = builder.body.blocks.len();
for stmt in &info.then_block.body {
lower_statement(builder, stmt, ret_type);
}
let last_then_block_idx = if !matches!(
builder.body.blocks.last().unwrap().terminator,
Terminator::Return
) {
let idx = builder.body.blocks.len();
let statements = std::mem::take(&mut builder.statements);
builder.body.blocks.push(BasicBlock {
statements: statements.into(),
terminator: Terminator::Unreachable,
terminator_span: Some(Span::new(info.then_block.span.hi, info.then_block.span.hi)),
});
Some(idx)
} else {
None
};
let first_else_block_idx = builder.body.blocks.len();
if let Some(contents) = &info.else_block {
for stmt in &contents.body {
lower_statement(builder, stmt, ret_type);
}
}
let last_else_block_idx = if !matches!(
builder.body.blocks.last().unwrap().terminator,
Terminator::Return
) {
let idx = builder.body.blocks.len();
let statements = std::mem::take(&mut builder.statements);
builder.body.blocks.push(BasicBlock {
statements: statements.into(),
terminator: Terminator::Unreachable,
terminator_span: info
.else_block
.as_ref()
.map(|x| Span::new(x.span.hi, x.span.hi)),
});
Some(idx)
} else {
None
};
let targets = SwitchTarget {
values: vec![condition_ty.get_falsy_value()],
targets: vec![first_else_block_idx, first_then_block_idx],
};
let kind = Terminator::SwitchInt {
discriminator: Operand::Move(place),
targets,
};
builder.body.blocks[current_block_idx].terminator = kind;
let next_block_idx = builder.body.blocks.len();
if let Some(idx) = last_then_block_idx {
builder.body.blocks[idx].terminator = Terminator::Target(next_block_idx);
}
if let Some(idx) = last_else_block_idx {
builder.body.blocks[idx].terminator = Terminator::Target(next_block_idx);
}
}
fn lower_let(builder: &mut BodyBuilder, info: &ast::LetStmt) {
let ty = lower_type(&builder.ctx, &info.r#type, builder.local_module);
let (rvalue, _ty, _span) = lower_expr(builder, &info.value, Some(&ty.kind));
let local_idx = builder.name_to_local.get(&info.name.name).copied().unwrap();
builder.statements.push(Statement {
span: Some(info.name.span),
kind: StatementKind::StorageLive(local_idx),
});
builder.statements.push(Statement {
span: Some(info.name.span),
kind: StatementKind::Assign(
Place {
local: local_idx,
projection: Default::default(),
},
rvalue,
),
});
}
fn lower_assign(builder: &mut BodyBuilder, info: &ast::AssignStmt) {
let (mut place, mut ty, _span) = lower_path(builder, &info.name);
for _ in 0..info.deref_times {
match &ty {
TypeKind::Ptr(is_mut, inner) => {
if !is_mut {
panic!("trying to mutate non mut ptr");
}
ty = inner.kind.clone();
}
TypeKind::Ref(is_mut, inner) => {
if !is_mut {
panic!("trying to mutate non mut ref");
}
ty = inner.kind.clone();
}
_ => unreachable!(),
}
place.projection.push(PlaceElem::Deref);
}
let (rvalue, _ty, _span) = lower_expr(builder, &info.value, Some(&ty));
builder.statements.push(Statement {
span: Some(info.name.first.span),
kind: StatementKind::Assign(place, rvalue),
});
}
fn find_expr_type(builder: &mut BodyBuilder, info: &ast::Expression) -> Option<TypeKind> {
Some(match info {
ast::Expression::Value(x) => match x {
ast::ValueExpr::Bool { .. } => TypeKind::Bool,
ast::ValueExpr::Char { .. } => TypeKind::Char,
ast::ValueExpr::Int { .. } => return None,
ast::ValueExpr::Float { .. } => return None,
ast::ValueExpr::Str { .. } => todo!(),
ast::ValueExpr::Path(path) => {
builder.get_local(&path.first.name)?.ty.kind.clone()
}
},
ast::Expression::FnCall(info) => {
let fn_id = {
let mod_body = builder.get_module_body();
if let Some(id) = mod_body.symbols.functions.get(&info.name.name) {
*id
} else {
*mod_body
.imports
.get(&info.name.name)
.expect("function call not found")
}
};
builder
.ctx
.body
.function_signatures
.get(&fn_id)?
.1
.kind
.clone()
}
ast::Expression::Unary(_, info) => find_expr_type(builder, info)?,
ast::Expression::Binary(lhs, op, rhs) => {
if matches!(op, BinaryOp::Logic(_, _)) {
TypeKind::Bool
} else {
find_expr_type(builder, lhs).or(find_expr_type(builder, rhs))?
}
}
ast::Expression::Deref(_) => todo!(),
ast::Expression::AsRef(_, _) => todo!(),
ast::Expression::StructInit(info) => {
let id = *builder
.get_module_body()
.symbols
.structs
.get(&info.name.name.name)
.expect("struct not found");
ir::TypeKind::Struct(id)
}
})
}
fn lower_expr(
builder: &mut BodyBuilder,
info: &ast::Expression,
type_hint: Option<&TypeKind>,
) -> (ir::RValue, TypeKind, Span) {
match info {
ast::Expression::Value(info) => {
let (value, ty, span) = lower_value(builder, info, type_hint);
(ir::RValue::Use(value, span), ty, span)
}
ast::Expression::FnCall(info) => {
let (value, ty, span) = lower_fn_call(builder, info);
(ir::RValue::Use(value, span), ty, span)
}
ast::Expression::Unary(_, _) => todo!(),
ast::Expression::Binary(lhs, op, rhs) => {
lower_binary_expr(builder, lhs, op, rhs, type_hint)
}
ast::Expression::Deref(inner) => {
let (value, ty, span) = lower_expr(builder, inner, type_hint);
let mut value = match value {
RValue::Use(op, _) => match op {
Operand::Copy(place) => place,
Operand::Move(place) => place,
Operand::Constant(_) => todo!("constant data deref"),
},
_ => unreachable!(),
};
value.projection.push(PlaceElem::Deref);
(RValue::Use(Operand::Move(value), span), ty, span)
}
ast::Expression::AsRef(inner, mutable) => {
let type_hint = match type_hint {
Some(inner) => match inner {
TypeKind::Ref(_, inner) => Some(&inner.kind),
_ => unreachable!(),
},
None => None,
};
let (mut value, ty, span) = lower_expr(builder, inner, type_hint);
value = match value {
RValue::Use(op, _span) => RValue::Ref(*mutable, op, span),
value => {
let inner_local = builder.add_local(Local::temp(ty.clone()));
let inner_place = Place {
local: inner_local,
projection: Default::default(),
};
builder.statements.push(Statement {
span: None,
kind: StatementKind::StorageLive(inner_local),
});
builder.statements.push(Statement {
span: None,
kind: StatementKind::Assign(inner_place.clone(), value),
});
RValue::Ref(*mutable, Operand::Move(inner_place), span)
}
};
let ty = TypeKind::Ref(
*mutable,
Box::new(TypeInfo {
span: Some(span),
kind: ty,
}),
);
(value, ty, span)
}
ast::Expression::StructInit(info) => {
let id = *builder
.get_module_body()
.symbols
.structs
.get(&info.name.name.name)
.expect("struct not found");
let struct_body = builder.ctx.body.structs.get(&id).unwrap().clone();
let ty = TypeKind::Struct(id);
let struct_local = builder.add_local(Local::temp(ty.clone()));
let place = Place {
local: struct_local,
projection: Default::default(),
};
builder.statements.push(Statement {
span: None,
kind: StatementKind::StorageLive(struct_local),
});
for (field, value) in info.fields.iter() {
let idx = *struct_body
.name_to_idx
.get(&field.name)
.expect("failed to find field");
let mut field_place = place.clone();
field_place
.projection
.push(PlaceElem::Field { field_idx: idx });
let variant = &struct_body.variants[idx].ty.kind;
let (value, _value_ty, span) = lower_expr(builder, &value.value, Some(variant));
builder.statements.push(Statement {
span: Some(span),
kind: StatementKind::Assign(field_place, value),
});
}
(RValue::Use(Operand::Move(place), info.span), ty, info.span)
}
}
}
fn lower_binary_expr(
builder: &mut BodyBuilder,
lhs: &ast::Expression,
op: &ast::BinaryOp,
rhs: &ast::Expression,
type_hint: Option<&TypeKind>,
) -> (ir::RValue, TypeKind, Span) {
trace!("lowering binary op: {:?}", op);
let (lhs, lhs_ty, _) = if type_hint.is_none() {
let ty = find_expr_type(builder, lhs)
.unwrap_or_else(|| find_expr_type(builder, rhs).expect("cant find type"));
lower_expr(builder, lhs, Some(&ty))
} else {
lower_expr(builder, lhs, type_hint)
};
let (rhs, rhs_ty, _) = if type_hint.is_none() {
let ty = find_expr_type(builder, rhs).unwrap_or(lhs_ty.clone());
lower_expr(builder, rhs, Some(&ty))
} else {
lower_expr(builder, rhs, type_hint)
};
let lhs = match lhs {
RValue::Use(op, _span) => op,
lhs => {
let lhs_local = builder.add_local(Local::temp(lhs_ty.clone()));
let lhs_place = Place {
local: lhs_local,
projection: Default::default(),
};
builder.statements.push(Statement {
span: None,
kind: StatementKind::StorageLive(lhs_local),
});
builder.statements.push(Statement {
span: None,
kind: StatementKind::Assign(lhs_place.clone(), lhs),
});
Operand::Move(lhs_place)
}
};
let rhs = match rhs {
RValue::Use(op, _span) => op,
rhs => {
let rhs_local = builder.add_local(Local::temp(rhs_ty.clone()));
let rhs_place = Place {
local: rhs_local,
projection: Default::default(),
};
builder.statements.push(Statement {
span: None,
kind: StatementKind::StorageLive(rhs_local),
});
builder.statements.push(Statement {
span: None,
kind: StatementKind::Assign(rhs_place.clone(), rhs),
});
Operand::Move(rhs_place)
}
};
match op {
ast::BinaryOp::Arith(op, span) => (
match op {
ast::ArithOp::Add => ir::RValue::BinOp(ir::BinOp::Add, lhs, rhs, *span),
ast::ArithOp::Sub => ir::RValue::BinOp(ir::BinOp::Sub, lhs, rhs, *span),
ast::ArithOp::Mul => ir::RValue::BinOp(ir::BinOp::Mul, lhs, rhs, *span),
ast::ArithOp::Div => ir::RValue::BinOp(ir::BinOp::Div, lhs, rhs, *span),
ast::ArithOp::Mod => ir::RValue::BinOp(ir::BinOp::Rem, lhs, rhs, *span),
},
lhs_ty,
*span,
),
ast::BinaryOp::Logic(op, span) => (
match op {
ast::LogicOp::And => ir::RValue::LogicOp(ir::LogicalOp::And, lhs, rhs, *span),
ast::LogicOp::Or => ir::RValue::LogicOp(ir::LogicalOp::Or, lhs, rhs, *span),
},
TypeKind::Bool,
*span,
),
ast::BinaryOp::Compare(op, span) => (
match op {
ast::CmpOp::Eq => ir::RValue::BinOp(ir::BinOp::Eq, lhs, rhs, *span),
ast::CmpOp::NotEq => ir::RValue::BinOp(ir::BinOp::Ne, lhs, rhs, *span),
ast::CmpOp::Lt => ir::RValue::BinOp(ir::BinOp::Lt, lhs, rhs, *span),
ast::CmpOp::LtEq => ir::RValue::BinOp(ir::BinOp::Le, lhs, rhs, *span),
ast::CmpOp::Gt => ir::RValue::BinOp(ir::BinOp::Gt, lhs, rhs, *span),
ast::CmpOp::GtEq => ir::RValue::BinOp(ir::BinOp::Ge, lhs, rhs, *span),
},
TypeKind::Bool,
*span,
),
ast::BinaryOp::Bitwise(op, span) => (
match op {
ast::BitwiseOp::And => ir::RValue::BinOp(ir::BinOp::BitAnd, lhs, rhs, *span),
ast::BitwiseOp::Or => ir::RValue::BinOp(ir::BinOp::BitOr, lhs, rhs, *span),
ast::BitwiseOp::Xor => ir::RValue::BinOp(ir::BinOp::BitXor, lhs, rhs, *span),
},
lhs_ty,
*span,
),
}
}
fn lower_fn_call(builder: &mut BodyBuilder, info: &ast::FnCallExpr) -> (Operand, TypeKind, Span) {
let fn_id = {
let mod_body = builder.get_module_body();
if let Some(id) = mod_body.symbols.functions.get(&info.name.name) {
*id
} else {
*mod_body
.imports
.get(&info.name.name)
.expect("function call not found")
}
};
let (args_ty, ret_ty) = {
if let Some(x) = builder.ctx.body.function_signatures.get(&fn_id).cloned() {
x
} else {
let (args, ret) = builder
.ctx
.unresolved_function_signatures
.get(&fn_id)
.unwrap();
let args: Vec<_> = args
.iter()
.map(|x| lower_type(&builder.ctx, x, builder.local_module))
.collect();
let ret = ret
.as_ref()
.map(|x| lower_type(&builder.ctx, x, builder.local_module))
.unwrap_or(TypeInfo {
span: None,
kind: TypeKind::Unit,
});
builder
.ctx
.body
.function_signatures
.insert(fn_id, (args.clone(), ret.clone()));
(args, ret)
}
};
let mut args = Vec::new();
for (arg, arg_ty) in info.params.iter().zip(args_ty) {
let (rvalue, _rvalue_ty, _span) = lower_expr(builder, arg, Some(&arg_ty.kind));
args.push(rvalue);
}
let dest_local = builder.add_local(Local::temp(ret_ty.kind.clone()));
let dest_place = Place {
local: dest_local,
projection: Default::default(),
};
let target_block = builder.body.blocks.len() + 1;
let kind = Terminator::Call {
func: fn_id,
args,
destination: dest_place.clone(),
target: Some(target_block),
};
let statements = std::mem::take(&mut builder.statements);
builder.body.blocks.push(BasicBlock {
statements: statements.into(),
terminator: kind,
terminator_span: Some(info.span),
});
(Operand::Move(dest_place), ret_ty.kind.clone(), info.span)
}
fn lower_value(
builder: &mut BodyBuilder,
info: &ast::ValueExpr,
type_hint: Option<&TypeKind>,
) -> (Operand, TypeKind, Span) {
match info {
ast::ValueExpr::Bool { value, span } => (
ir::Operand::Constant(ir::ConstData {
span: Some(*span),
type_info: ir::TypeInfo {
span: None,
kind: ir::TypeKind::Bool,
},
kind: ir::ConstKind::Value(ir::ValueTree::Leaf(ir::ConstValue::Bool(*value))),
}),
TypeKind::Bool,
*span,
),
ast::ValueExpr::Char { value, span } => (
ir::Operand::Constant(ir::ConstData {
span: Some(*span),
type_info: ir::TypeInfo {
span: None,
kind: ir::TypeKind::Char,
},
kind: ir::ConstKind::Value(ir::ValueTree::Leaf(ir::ConstValue::U32(
(*value) as u32,
))),
}),
TypeKind::Char,
*span,
),
ast::ValueExpr::Int { value, span } => {
let (ty, val) = match type_hint {
Some(type_hint) => match &type_hint {
ir::TypeKind::Int(int_type) => match int_type {
ir::IntTy::I128 => (
ir::TypeKind::Int(ir::IntTy::I128),
ir::ConstValue::I128((*value) as i128),
),
ir::IntTy::I64 => (
ir::TypeKind::Int(ir::IntTy::I64),
ir::ConstValue::I64((*value) as i64),
),
ir::IntTy::I32 => (
ir::TypeKind::Int(ir::IntTy::I32),
ir::ConstValue::I32((*value) as i32),
),
ir::IntTy::I16 => (
ir::TypeKind::Int(ir::IntTy::I16),
ir::ConstValue::I16((*value) as i16),
),
ir::IntTy::I8 => (
ir::TypeKind::Int(ir::IntTy::I8),
ir::ConstValue::I8((*value) as i8),
),
ir::IntTy::Isize => todo!(),
},
ir::TypeKind::Uint(int_type) => match int_type {
ir::UintTy::U128 => (
ir::TypeKind::Uint(ir::UintTy::U128),
ir::ConstValue::U128(*value),
),
ir::UintTy::U64 => (
ir::TypeKind::Uint(ir::UintTy::U64),
ir::ConstValue::U64((*value) as u64),
),
ir::UintTy::U32 => (
ir::TypeKind::Uint(ir::UintTy::U32),
ir::ConstValue::U32((*value) as u32),
),
ir::UintTy::U16 => (
ir::TypeKind::Uint(ir::UintTy::U16),
ir::ConstValue::U16((*value) as u16),
),
ir::UintTy::U8 => (
ir::TypeKind::Uint(ir::UintTy::U8),
ir::ConstValue::U8((*value) as u8),
),
_ => todo!(),
},
ir::TypeKind::Ptr(_, _) => (
ir::TypeKind::Int(ir::IntTy::Isize),
ir::ConstValue::Isize((*value) as isize),
),
_ => unreachable!(),
},
None => todo!(),
};
(
ir::Operand::Constant(ir::ConstData {
span: Some(*span),
type_info: ir::TypeInfo {
span: None,
kind: ty.clone(),
},
kind: ir::ConstKind::Value(ir::ValueTree::Leaf(val)),
}),
ty,
*span,
)
}
ast::ValueExpr::Float { value, span } => match type_hint {
Some(type_hint) => match &type_hint {
TypeKind::Float(float_ty) => match float_ty {
ir::FloatTy::F32 => (
ir::Operand::Constant(ir::ConstData {
span: Some(*span),
type_info: ir::TypeInfo {
span: None,
kind: ir::TypeKind::Float(ir::FloatTy::F32),
},
kind: ir::ConstKind::Value(ir::ValueTree::Leaf(ir::ConstValue::F32(
value.parse().unwrap(),
))),
}),
type_hint.clone(),
*span,
),
ir::FloatTy::F64 => (
ir::Operand::Constant(ir::ConstData {
span: Some(*span),
type_info: ir::TypeInfo {
span: None,
kind: ir::TypeKind::Float(ir::FloatTy::F64),
},
kind: ir::ConstKind::Value(ir::ValueTree::Leaf(ir::ConstValue::F64(
value.parse().unwrap(),
))),
}),
type_hint.clone(),
*span,
),
},
_ => unreachable!(),
},
None => todo!(),
},
ast::ValueExpr::Str { value: _, span: _ } => todo!(),
ast::ValueExpr::Path(info) => {
let (place, ty, span) = lower_path(builder, info);
(Operand::Move(place), ty, span)
}
}
}
fn lower_return(builder: &mut BodyBuilder, info: &ast::ReturnStmt, return_type: &TypeKind) {
if let Some(value_expr) = &info.value {
let (value, _ty, span) = lower_expr(builder, value_expr, Some(return_type));
builder.statements.push(Statement {
span: Some(span),
kind: StatementKind::Assign(
Place {
local: builder.ret_local,
projection: Default::default(),
},
value,
),
});
}
let statements = std::mem::take(&mut builder.statements);
builder.body.blocks.push(BasicBlock {
statements: statements.into(),
terminator: Terminator::Return,
terminator_span: Some(info.span),
});
}
fn lower_path(builder: &mut BodyBuilder, info: &ast::PathExpr) -> (ir::Place, TypeKind, Span) {
let local = *builder
.name_to_local
.get(&info.first.name)
.expect("local not found");
let mut ty = builder.body.locals[local].ty.kind.clone();
let mut projection = Vec::new();
for extra in &info.extra {
match extra {
ast::PathSegment::Field(name) => {
while let TypeKind::Ref(_, inner) = ty {
projection.push(PlaceElem::Deref);
ty = inner.kind;
}
if let TypeKind::Struct(id) = ty {
let struct_body = builder.ctx.body.structs.get(&id).unwrap();
let idx = *struct_body.name_to_idx.get(&name.name).unwrap();
projection.push(PlaceElem::Field { field_idx: idx });
ty = struct_body.variants[idx].ty.kind.clone();
}
}
ast::PathSegment::Index { .. } => todo!(),
}
}
(
Place {
local,
projection: projection.into(), },
ty,
info.span,
)
}
#[allow(clippy::only_used_in_recursion)]
pub fn lower_type(ctx: &BuildCtx, t: &ast::Type, module_id: DefId) -> ir::TypeInfo {
let mut ty = match t.name.name.as_str() {
"()" => ir::TypeInfo {
span: Some(t.span),
kind: ir::TypeKind::Unit,
},
"u8" => ir::TypeInfo {
span: Some(t.span),
kind: ir::TypeKind::Uint(ir::UintTy::U8),
},
"u16" => ir::TypeInfo {
span: Some(t.span),
kind: ir::TypeKind::Uint(ir::UintTy::U16),
},
"u32" => ir::TypeInfo {
span: Some(t.span),
kind: ir::TypeKind::Uint(ir::UintTy::U32),
},
"u64" => ir::TypeInfo {
span: Some(t.span),
kind: ir::TypeKind::Uint(ir::UintTy::U64),
},
"u128" => ir::TypeInfo {
span: Some(t.span),
kind: ir::TypeKind::Uint(ir::UintTy::U128),
},
"i8" => ir::TypeInfo {
span: Some(t.span),
kind: ir::TypeKind::Int(ir::IntTy::I8),
},
"i16" => ir::TypeInfo {
span: Some(t.span),
kind: ir::TypeKind::Int(ir::IntTy::I16),
},
"i32" => ir::TypeInfo {
span: Some(t.span),
kind: ir::TypeKind::Int(ir::IntTy::I32),
},
"i64" => ir::TypeInfo {
span: Some(t.span),
kind: ir::TypeKind::Int(ir::IntTy::I64),
},
"i128" => ir::TypeInfo {
span: Some(t.span),
kind: ir::TypeKind::Int(ir::IntTy::I128),
},
"char" => ir::TypeInfo {
span: Some(t.span),
kind: ir::TypeKind::Char,
},
"bool" => ir::TypeInfo {
span: Some(t.span),
kind: ir::TypeKind::Bool,
},
"str" => ir::TypeInfo {
span: Some(t.span),
kind: ir::TypeKind::Str,
},
other => {
let module = ctx.body.modules.get(&module_id).expect("module not found");
if let Some(struct_id) = module.symbols.structs.get(other) {
let struct_body = ctx.body.structs.get(struct_id).unwrap();
ir::TypeInfo {
span: Some(struct_body.span),
kind: TypeKind::Struct(*struct_id),
}
} else {
todo!("{:?}", other)
}
}
};
for qualifier in &t.qualifiers {
let kind = match qualifier {
ast::TypeQualifier::Ref => TypeKind::Ref(false, Box::new(ty)),
ast::TypeQualifier::RefMut => TypeKind::Ref(true, Box::new(ty)),
ast::TypeQualifier::Ptr => TypeKind::Ptr(false, Box::new(ty)),
ast::TypeQualifier::PtrMut => TypeKind::Ptr(true, Box::new(ty)),
};
ty = TypeInfo {
span: Some(t.span),
kind,
};
}
ty
}