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Add low-level ops for ListPush, ListRepeat

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This commit is contained in:
Richard Feldman 2020-06-29 22:09:39 -04:00
parent 8c96d12661
commit dc4807bfcb
3 changed files with 36 additions and 91 deletions
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121
compiler/gen/src/llvm/build.rs
View file

@ -1014,19 +1014,12 @@ pub fn verify_fn(fn_val: FunctionValue<'_>) {
} }
} }
/// List.single : a -> List a
fn list_single<'a, 'ctx, 'env>( fn list_single<'a, 'ctx, 'env>(
env: &Env<'a, 'ctx, 'env>, env: &Env<'a, 'ctx, 'env>,
layout_ids: &mut LayoutIds<'a>, elem: BasicValueEnum<'ctx>,
layout: &Layout<'a>, elem_layout: &Layout<'a>,
symbol: Symbol,
parent: FunctionValue<'ctx>,
args: &[(BasicValueEnum<'ctx>, &'a Layout<'a>)],
) -> BasicValueEnum<'ctx> { ) -> BasicValueEnum<'ctx> {
// List.single : a -> List a
debug_assert_eq!(args.len(), 1);
let (elem, elem_layout) = args[0];
let builder = env.builder; let builder = env.builder;
let ctx = env.context; let ctx = env.context;
@ -1090,24 +1083,16 @@ fn list_single<'a, 'ctx, 'env>(
) )
} }
/// List.repeat : Int, elem -> List elem
fn list_repeat<'a, 'ctx, 'env>( fn list_repeat<'a, 'ctx, 'env>(
env: &Env<'a, 'ctx, 'env>, env: &Env<'a, 'ctx, 'env>,
layout_ids: &mut LayoutIds<'a>,
layout: &Layout<'a>,
symbol: Symbol,
parent: FunctionValue<'ctx>, parent: FunctionValue<'ctx>,
args: &[(BasicValueEnum<'ctx>, &'a Layout<'a>)], list_len: IntValue<'ctx>,
elem: BasicValueEnum<'ctx>,
elem_layout: &Layout<'a>,
) -> BasicValueEnum<'ctx> { ) -> BasicValueEnum<'ctx> {
// List.repeat : Int, elem -> List elem
debug_assert_eq!(args.len(), 1);
// Number of repeats
let list_len = args[0].0.into_int_value();
let builder = env.builder; let builder = env.builder;
let ctx = env.context; let ctx = env.context;
let (elem, elem_layout) = args[1];
let elem_type = basic_type_from_layout(env.arena, ctx, elem_layout, env.ptr_bytes); let elem_type = basic_type_from_layout(env.arena, ctx, elem_layout, env.ptr_bytes);
// list_len > 0 // list_len > 0
@ -1409,22 +1394,18 @@ fn bounds_check_comparison<'ctx>(
builder.build_int_compare(IntPredicate::ULT, elem_index, len, "bounds_check") builder.build_int_compare(IntPredicate::ULT, elem_index, len, "bounds_check")
} }
/// List.push List elem, elem -> List elem
fn list_push<'a, 'ctx, 'env>( fn list_push<'a, 'ctx, 'env>(
args: &[(BasicValueEnum<'ctx>, &'a Layout<'a>)],
env: &Env<'a, 'ctx, 'env>, env: &Env<'a, 'ctx, 'env>,
original_wrapper: StructValue<'ctx>,
elem: BasicValueEnum<'ctx>,
elem_layout: &Layout<'a>,
) -> BasicValueEnum<'ctx> { ) -> BasicValueEnum<'ctx> {
// List.push List elem, elem -> List elem
let builder = env.builder; let builder = env.builder;
let ctx = env.context; let ctx = env.context;
debug_assert!(args.len() == 2);
let original_wrapper = args[0].0.into_struct_value();
// Load the usize length from the wrapper. // Load the usize length from the wrapper.
let list_len = load_list_len(builder, original_wrapper); let list_len = load_list_len(builder, original_wrapper);
let (elem, elem_layout) = args[1];
let elem_type = basic_type_from_layout(env.arena, ctx, elem_layout, env.ptr_bytes); let elem_type = basic_type_from_layout(env.arena, ctx, elem_layout, env.ptr_bytes);
let ptr_type = get_ptr_type(&elem_type, AddressSpace::Generic); let ptr_type = get_ptr_type(&elem_type, AddressSpace::Generic);
@ -1597,79 +1578,41 @@ fn run_low_level<'a, 'ctx, 'env>(
match op { match op {
ListLen => { ListLen => {
// List.len : List * -> Int
debug_assert_eq!(args.len(), 1); debug_assert_eq!(args.len(), 1);
let arg = build_expr(env, layout_ids, scope, parent, &args[0].0); let arg = build_expr(env, layout_ids, scope, parent, &args[0].0);
BasicValueEnum::IntValue(load_list_len(env.builder, arg.into_struct_value())) load_list_len(env.builder, arg.into_struct_value()).into()
} }
ListSingle => { ListSingle => {
// List.single : a -> List a // List.single : a -> List a
debug_assert_eq!(args.len(), 1); debug_assert_eq!(args.len(), 1);
let elem = build_expr(env, layout_ids, scope, parent, &args[0].0); let arg = build_expr(env, layout_ids, scope, parent, &args[0].0);
let builder = env.builder;
let ctx = env.context;
let elem_layout = &args[0].1; list_single(env, arg, &args[0].1)
let elem_type = basic_type_from_layout(env.arena, ctx, &elem_layout, env.ptr_bytes); }
let elem_bytes = elem_layout.stack_size(env.ptr_bytes) as u64; ListRepeat => {
// List.repeat : Int, elem -> List elem
debug_assert_eq!(args.len(), 2);
let ptr = { let list_len = build_expr(env, layout_ids, scope, parent, &args[0].0).into_int_value();
let bytes_len = elem_bytes; let elem = build_expr(env, layout_ids, scope, parent, &args[1].0);
let len_type = env.ptr_int(); let elem_layout = &args[1].1;
let len = len_type.const_int(bytes_len, false);
env.builder list_repeat(env, parent, list_len, elem, elem_layout)
.build_array_malloc(elem_type, len, "create_list_ptr") }
.unwrap() ListPush => {
// List.push List elem, elem -> List elem
debug_assert_eq!(args.len(), 2);
// TODO check if malloc returned null; if so, runtime error for OOM! let original_wrapper =
}; build_expr(env, layout_ids, scope, parent, &args[0].0).into_struct_value();
let elem = build_expr(env, layout_ids, scope, parent, &args[1].0);
let elem_layout = &args[1].1;
// Put the element into the list list_push(env, original_wrapper, elem, elem_layout)
let elem_ptr = unsafe {
builder.build_in_bounds_gep(
ptr,
&[ctx.i32_type().const_int(
// 0 as in 0 index of our new list
0 as u64, false,
)],
"index",
)
};
builder.build_store(elem_ptr, elem);
let ptr_bytes = env.ptr_bytes;
let int_type = ptr_int(ctx, ptr_bytes);
let ptr_as_int = builder.build_ptr_to_int(ptr, int_type, "list_cast_ptr");
let struct_type = collection(ctx, ptr_bytes);
let len = BasicValueEnum::IntValue(env.ptr_int().const_int(1, false));
let mut struct_val;
// Store the pointer
struct_val = builder
.build_insert_value(
struct_type.get_undef(),
ptr_as_int,
Builtin::WRAPPER_PTR,
"insert_ptr",
)
.unwrap();
// Store the length
struct_val = builder
.build_insert_value(struct_val, len, Builtin::WRAPPER_LEN, "insert_len")
.unwrap();
//
builder.build_bitcast(
struct_val.into_struct_value(),
collection(ctx, ptr_bytes),
"cast_collection",
)
} }
NumAbs | NumNeg | NumRound | NumSqrtUnchecked | NumSin | NumCos | NumToFloat => { NumAbs | NumNeg | NumRound | NumSqrtUnchecked | NumSin | NumCos | NumToFloat => {
debug_assert_eq!(args.len(), 1); debug_assert_eq!(args.len(), 1);

2
compiler/module/src/low_level.rs
View file

@ -8,6 +8,8 @@ pub enum LowLevel {
ListSet, ListSet,
ListSetInPlace, ListSetInPlace,
ListSingle, ListSingle,
ListRepeat,
ListPush,
NumAdd, NumAdd,
NumSub, NumSub,
NumMul, NumMul,

4
compiler/uniq/src/sharing.rs
View file

@ -733,7 +733,7 @@ fn annotate_low_level_usage(
} }
} }
ListSet | ListSetInPlace => { ListSet | ListSetInPlace | ListPush => {
match &args[0].1 { match &args[0].1 {
Var(list_var) => { Var(list_var) => {
usage.register_with( usage.register_with(
@ -757,7 +757,7 @@ fn annotate_low_level_usage(
ListSingle | NumAdd | NumSub | NumMul | NumGt | NumGte | NumLt | NumLte | NumAbs ListSingle | NumAdd | NumSub | NumMul | NumGt | NumGte | NumLt | NumLte | NumAbs
| NumNeg | NumDivUnchecked | NumRemUnchecked | NumSqrtUnchecked | NumRound | NumSin | NumNeg | NumDivUnchecked | NumRemUnchecked | NumSqrtUnchecked | NumRound | NumSin
| NumCos | Eq | NotEq | And | Or | Not | NumToFloat => { | NumCos | Eq | NotEq | And | Or | Not | NumToFloat | ListRepeat => {
for (_, arg) in args { for (_, arg) in args {
annotate_usage(&arg, usage); annotate_usage(&arg, usage);
} }