codegen: gep related fixes
we can now compile simple programs that uses tuples and lists
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parent
39545c0005
commit
0e2da0d180
@ -8,12 +8,28 @@ use crate::{
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};
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use inkwell::{
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types::{BasicType, BasicTypeEnum},
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values::BasicValueEnum,
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values::{BasicValueEnum, IntValue, PointerValue},
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AddressSpace,
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};
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use itertools::{chain, izip, zip, Itertools};
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use rustpython_parser::ast::{self, Boolop, Constant, Expr, ExprKind, Operator};
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fn assert_int_val<'ctx>(val: BasicValueEnum<'ctx>) -> IntValue<'ctx> {
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if let BasicValueEnum::IntValue(v) = val {
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v
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} else {
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unreachable!()
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}
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}
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fn assert_pointer_val<'ctx>(val: BasicValueEnum<'ctx>) -> PointerValue<'ctx> {
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if let BasicValueEnum::PointerValue(v) = val {
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v
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} else {
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unreachable!()
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}
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}
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impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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fn get_subst_key(&mut self, obj: Option<Type>, fun: &FunSignature) -> String {
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let mut vars = obj
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@ -63,10 +79,11 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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let zero = self.ctx.i32_type().const_zero();
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unsafe {
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for (i, val) in vals.into_iter().enumerate() {
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let p = ptr.const_in_bounds_gep(&[
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zero,
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self.ctx.i32_type().const_int(i as u64, false),
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]);
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let p = self.builder.build_in_bounds_gep(
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ptr,
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&[zero, self.ctx.i32_type().const_int(i as u64, false)],
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"elemptr",
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);
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self.builder.build_store(p, val);
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}
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}
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@ -88,7 +105,7 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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) -> Option<BasicValueEnum<'ctx>> {
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let key = self.get_subst_key(obj.map(|(a, _)| a), fun.0);
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let defs = self.top_level.definitions.read();
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let definition = defs.get(fun.1.0).unwrap();
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let definition = defs.get(fun.1 .0).unwrap();
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let val = if let TopLevelDef::Function { instance_to_symbol, .. } = &*definition.read() {
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let symbol = instance_to_symbol.get(&key).unwrap_or_else(|| {
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// TODO: codegen for function that are not yet generated
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@ -242,14 +259,7 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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ExprKind::Name { id, .. } => {
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let ptr = self.var_assignment.get(id).unwrap();
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let primitives = &self.primitives;
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// we should only dereference primitive types
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if [primitives.int32, primitives.int64, primitives.float, primitives.bool]
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.contains(&self.unifier.get_representative(expr.custom.unwrap()))
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{
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self.builder.build_load(*ptr, "load")
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} else {
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(*ptr).into()
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}
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self.builder.build_load(*ptr, "load")
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}
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ExprKind::List { elts, .. } => {
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// this shall be optimized later for constant primitive lists...
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@ -271,23 +281,26 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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);
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let arr_str_ptr = self.builder.build_alloca(arr_ty, "tmparrstr");
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unsafe {
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let len_ptr =
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self.builder.build_in_bounds_gep(arr_str_ptr, &[zero, zero], "len_ptr");
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self.builder.build_store(
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arr_str_ptr.const_in_bounds_gep(&[zero, zero]),
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len_ptr,
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self.ctx.i32_type().const_int(elements.len() as u64, false),
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);
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self.builder.build_store(
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arr_str_ptr
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.const_in_bounds_gep(&[zero, self.ctx.i32_type().const_int(1, false)]),
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arr_ptr,
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let ptr_to_arr = self.builder.build_in_bounds_gep(
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arr_str_ptr,
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&[zero, self.ctx.i32_type().const_int(1, false)],
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"ptr_to_arr",
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);
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let arr_offset = self.ctx.i32_type().const_int(1, false);
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self.builder.build_store(ptr_to_arr, arr_ptr);
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let i32_type = self.ctx.i32_type();
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for (i, v) in elements.iter().enumerate() {
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let ptr = self.builder.build_in_bounds_gep(
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let elem_ptr = self.builder.build_in_bounds_gep(
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arr_ptr,
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&[zero, arr_offset, self.ctx.i32_type().const_int(i as u64, false)],
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"arr_element",
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&[i32_type.const_int(i as u64, false)],
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"elem_ptr",
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);
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self.builder.build_store(ptr, *v);
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self.builder.build_store(elem_ptr, *v);
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}
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}
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arr_str_ptr.into()
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@ -299,10 +312,11 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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let tuple_ptr = self.builder.build_alloca(tuple_ty, "tuple");
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for (i, v) in element_val.into_iter().enumerate() {
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unsafe {
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let ptr = tuple_ptr.const_in_bounds_gep(&[
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zero,
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self.ctx.i32_type().const_int(i as u64, false),
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]);
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let ptr = self.builder.build_in_bounds_gep(
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tuple_ptr,
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&[zero, self.ctx.i32_type().const_int(i as u64, false)],
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"ptr",
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);
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self.builder.build_store(ptr, v);
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}
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}
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@ -312,27 +326,19 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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// note that we would handle class methods directly in calls
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let index = self.get_attr_index(value.custom.unwrap(), attr);
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let val = self.gen_expr(value).unwrap();
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let ptr = if let BasicValueEnum::PointerValue(v) = val {
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v
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} else {
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unreachable!();
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};
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let ptr = assert_pointer_val(val);
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unsafe {
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let ptr = ptr.const_in_bounds_gep(&[
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zero,
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self.ctx.i32_type().const_int(index as u64, false),
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]);
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let ptr = self.builder.build_in_bounds_gep(
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ptr,
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&[zero, self.ctx.i32_type().const_int(index as u64, false)],
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"attr",
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);
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self.builder.build_load(ptr, "field")
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}
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}
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ExprKind::BoolOp { op, values } => {
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// requires conditional branches for short-circuiting...
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let left =
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if let BasicValueEnum::IntValue(left) = self.gen_expr(&values[0]).unwrap() {
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left
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} else {
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unreachable!()
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};
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let left = assert_int_val(self.gen_expr(&values[0]).unwrap());
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let current = self.builder.get_insert_block().unwrap().get_parent().unwrap();
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let a_bb = self.ctx.append_basic_block(current, "a");
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let b_bb = self.ctx.append_basic_block(current, "b");
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@ -344,25 +350,13 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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let a = self.ctx.bool_type().const_int(1, false);
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self.builder.build_unconditional_branch(cont_bb);
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self.builder.position_at_end(b_bb);
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let b = if let BasicValueEnum::IntValue(b) =
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self.gen_expr(&values[1]).unwrap()
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{
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b
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} else {
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unreachable!()
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};
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let b = assert_int_val(self.gen_expr(&values[1]).unwrap());
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self.builder.build_unconditional_branch(cont_bb);
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(a, b)
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}
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Boolop::And => {
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self.builder.position_at_end(a_bb);
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let a = if let BasicValueEnum::IntValue(a) =
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self.gen_expr(&values[1]).unwrap()
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{
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a
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} else {
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unreachable!()
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};
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let a = assert_int_val(self.gen_expr(&values[1]).unwrap());
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self.builder.build_unconditional_branch(cont_bb);
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self.builder.position_at_end(b_bb);
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let b = self.ctx.bool_type().const_int(0, false);
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@ -396,8 +390,7 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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let ty = self.unifier.get_representative(operand.custom.unwrap());
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let val = self.gen_expr(operand).unwrap();
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if ty == self.primitives.bool {
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let val =
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if let BasicValueEnum::IntValue(val) = val { val } else { unreachable!() };
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let val = assert_int_val(val);
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match op {
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ast::Unaryop::Invert | ast::Unaryop::Not => {
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self.builder.build_not(val, "not").into()
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@ -405,8 +398,7 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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_ => val.into(),
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}
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} else if [self.primitives.int32, self.primitives.int64].contains(&ty) {
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let val =
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if let BasicValueEnum::IntValue(val) = val { val } else { unreachable!() };
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let val = assert_int_val(val);
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match op {
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ast::Unaryop::USub => self.builder.build_int_neg(val, "neg").into(),
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ast::Unaryop::Invert => self.builder.build_not(val, "not").into(),
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@ -506,12 +498,7 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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.into() // as there should be at least 1 element, it should never be none
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}
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ExprKind::IfExp { test, body, orelse } => {
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let test = if let BasicValueEnum::IntValue(test) = self.gen_expr(test).unwrap() {
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test
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} else {
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unreachable!()
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};
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let test = assert_int_val(self.gen_expr(test).unwrap());
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let current = self.builder.get_insert_block().unwrap().get_parent().unwrap();
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let then_bb = self.ctx.append_basic_block(current, "then");
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let else_bb = self.ctx.append_basic_block(current, "else");
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@ -551,6 +538,42 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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unimplemented!()
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}
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}
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ExprKind::Subscript { value, slice, .. } => {
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if let TypeEnum::TList { ty } = &*self.unifier.get_ty(value.custom.unwrap()) {
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if let ExprKind::Slice { .. } = slice.node {
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unimplemented!()
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} else {
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// TODO: bound check
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let i32_type = self.ctx.i32_type();
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let v = assert_pointer_val(self.gen_expr(value).unwrap());
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let index = assert_int_val(self.gen_expr(slice).unwrap());
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unsafe {
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let ptr_to_arr = self.builder.build_in_bounds_gep(
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v,
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&[i32_type.const_zero(), i32_type.const_int(1, false)],
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"ptr_to_arr",
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);
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let arr_ptr =
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assert_pointer_val(self.builder.build_load(ptr_to_arr, "loadptr"));
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let ptr = self.builder.build_gep(arr_ptr, &[index], "loadarrgep");
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println!("building element pointer");
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self.builder.build_load(ptr, "loadarr")
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}
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}
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} else {
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let i32_type = self.ctx.i32_type();
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let v = assert_pointer_val(self.gen_expr(value).unwrap());
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let index = assert_int_val(self.gen_expr(slice).unwrap());
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unsafe {
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let ptr_to_elem = self.builder.build_in_bounds_gep(
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v,
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&[i32_type.const_zero(), index],
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"ptr_to_elem",
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);
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self.builder.build_load(ptr_to_elem, "loadelem")
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}
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}
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}
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_ => unimplemented!(),
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})
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}
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@ -35,10 +35,14 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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unreachable!();
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};
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unsafe {
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ptr.const_in_bounds_gep(&[
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self.ctx.i32_type().const_zero(),
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self.ctx.i32_type().const_int(index as u64, false),
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])
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self.builder.build_in_bounds_gep(
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ptr,
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&[
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self.ctx.i32_type().const_zero(),
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self.ctx.i32_type().const_int(index as u64, false),
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],
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"attr",
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)
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}
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}
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ExprKind::Subscript { .. } => unimplemented!(),
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@ -47,14 +51,16 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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}
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fn gen_assignment(&mut self, target: &Expr<Option<Type>>, value: BasicValueEnum<'ctx>) {
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let i32_type = self.ctx.i32_type();
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if let ExprKind::Tuple { elts, .. } = &target.node {
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if let BasicValueEnum::PointerValue(ptr) = value {
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for (i, elt) in elts.iter().enumerate() {
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unsafe {
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let t = ptr.const_in_bounds_gep(&[
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self.ctx.i32_type().const_zero(),
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self.ctx.i32_type().const_int(i as u64, false),
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]);
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let t = self.builder.build_in_bounds_gep(
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ptr,
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&[i32_type.const_zero(), i32_type.const_int(i as u64, false)],
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"elem",
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);
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let v = self.builder.build_load(t, "tmpload");
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self.gen_assignment(elt, v);
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}
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