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https://github.com/roc-lang/roc.git
synced 2024-11-13 22:19:06 +03:00
Fix use of GEP (was using byte offset, not index)
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4182e51877
commit
cc8683d241
1
Cargo.lock
generated
1
Cargo.lock
generated
@ -833,6 +833,7 @@ dependencies = [
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"indoc",
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"inkwell",
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"inlinable_string",
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"libc",
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"maplit",
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"pretty_assertions",
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"quickcheck",
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@ -54,3 +54,4 @@ quickcheck = "0.8"
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quickcheck_macros = "0.8"
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tokio = { version = "0.2", features = ["blocking", "fs", "sync", "rt-threaded"] }
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bumpalo = { version = "3.2", features = ["collections"] }
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libc = "0.2"
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@ -351,6 +351,7 @@ pub fn build_expr<'a, B: Backend>(
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let bytes_len = str_literal.len() + 1/* TODO drop the +1 when we have structs and this is no longer a NUL-terminated CString.*/;
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let size = builder.ins().iconst(types::I64, bytes_len as i64);
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let ptr = call_malloc(env, module, builder, size);
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// TODO check if malloc returned null; if so, runtime error for OOM!
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let mem_flags = MemFlags::new();
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// Store the bytes from the string literal in the array
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@ -389,6 +390,8 @@ pub fn build_expr<'a, B: Backend>(
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let bytes_len = elem_bytes as usize * elems.len();
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let size = builder.ins().iconst(types::I64, bytes_len as i64);
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let elems_ptr = call_malloc(env, module, builder, size);
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// TODO check if malloc returned null; if so, runtime error for OOM!
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let mem_flags = MemFlags::new();
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// Copy the elements from the literal into the array
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@ -1044,6 +1047,8 @@ fn clone_list<B: Backend>(
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// Allocate space for the new array that we'll copy into.
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let new_elems_ptr = call_malloc(env, module, builder, size);
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// TODO check if malloc returned null; if so, runtime error for OOM!
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// Either memcpy or deep clone the array elements
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if elem_layout.safe_to_memcpy() {
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// Copy the bytes from the original array into the new
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@ -208,20 +208,23 @@ pub fn build_expr<'a, 'ctx, 'env>(
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} else {
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let ctx = env.context;
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let builder = env.builder;
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let bytes_len = str_literal.len() + 1/* TODO drop the +1 when we have structs and this is no longer a NUL-terminated CString.*/;
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let str_len = str_literal.len() + 1/* TODO drop the +1 when we have structs and this is no longer a NUL-terminated CString.*/;
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let byte_type = ctx.i8_type();
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let nul_terminator = byte_type.const_zero();
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let len = ctx.i32_type().const_int(bytes_len as u64, false);
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let len_val = ctx.i32_type().const_int(str_len as u64, false);
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let ptr = env
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.builder
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.build_array_malloc(ctx.i8_type(), len, "str_ptr")
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.build_array_malloc(ctx.i8_type(), len_val, "str_ptr")
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.unwrap();
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// TODO check if malloc returned null; if so, runtime error for OOM!
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// Copy the bytes from the string literal into the array
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for (index, byte) in str_literal.bytes().enumerate() {
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let index = ctx.i32_type().const_int(index as u64, false);
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let elem_ptr = unsafe { builder.build_gep(ptr, &[index], "byte") };
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let index_val = ctx.i32_type().const_int(index as u64, false);
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let elem_ptr =
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unsafe { builder.build_in_bounds_gep(ptr, &[index_val], "byte") };
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builder.build_store(elem_ptr, byte_type.const_int(byte as u64, false));
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}
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@ -229,8 +232,9 @@ pub fn build_expr<'a, 'ctx, 'env>(
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// Add a NUL terminator at the end.
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// TODO: Instead of NUL-terminating, return a struct
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// with the pointer and also the length and capacity.
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let index = ctx.i32_type().const_int(bytes_len as u64 - 1, false);
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let elem_ptr = unsafe { builder.build_gep(ptr, &[index], "nul_terminator") };
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let index_val = ctx.i32_type().const_int(str_len as u64 - 1, false);
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let elem_ptr =
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unsafe { builder.build_in_bounds_gep(ptr, &[index_val], "nul_terminator") };
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builder.build_store(elem_ptr, nul_terminator);
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@ -260,13 +264,15 @@ pub fn build_expr<'a, 'ctx, 'env>(
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env.builder
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.build_array_malloc(elem_type, len, "create_list_ptr")
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.unwrap()
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// TODO check if malloc returned null; if so, runtime error for OOM!
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};
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// Copy the elements from the list literal into the array
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for (index, elem) in elems.iter().enumerate() {
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let offset = ctx.i32_type().const_int(elem_bytes * index as u64, false);
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let elem_ptr = unsafe { builder.build_gep(ptr, &[offset], "elem") };
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let index_val = ctx.i32_type().const_int(index as u64, false);
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let elem_ptr =
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unsafe { builder.build_in_bounds_gep(ptr, &[index_val], "index") };
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let val = build_expr(env, &scope, parent, &elem, procs);
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builder.build_store(elem_ptr, val);
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@ -1065,18 +1071,13 @@ fn call_with_args<'a, 'ctx, 'env>(
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// TODO here, check to see if the requested index exceeds the length of the array.
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match list_layout {
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Layout::Builtin(Builtin::List(elem_layout)) => {
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Layout::Builtin(Builtin::List(_)) => {
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// Load the pointer to the array data
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let array_data_ptr = load_list_ptr(builder, wrapper_struct);
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let elem_bytes = elem_layout.stack_size(env.ptr_bytes) as u64;
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let elem_size = env.ptr_int().const_int(elem_bytes, false);
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// Calculate the offset at runtime by multiplying the index by the size of an element.
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let offset_bytes = builder.build_int_mul(elem_index, elem_size, "mul_offset");
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// We already checked the bounds earlier.
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let elem_ptr = unsafe {
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builder.build_in_bounds_gep(array_data_ptr, &[offset_bytes], "elem")
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builder.build_in_bounds_gep(array_data_ptr, &[elem_index], "elem")
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};
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builder.build_load(elem_ptr, "List.get")
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@ -1111,16 +1112,12 @@ fn call_with_args<'a, 'ctx, 'env>(
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)
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};
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let elem_bytes = elem_layout.stack_size(env.ptr_bytes) as u64;
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let elem_size = env.ptr_int().const_int(elem_bytes, false);
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// Calculate the offset at runtime by multiplying the index by the size of an element.
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let elem_index = args[1].0.into_int_value();
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let offset_bytes = builder.build_int_mul(elem_index, elem_size, "mul_offset");
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// We already checked the bounds earlier.
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let elem_ptr =
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unsafe { builder.build_in_bounds_gep(array_data_ptr, &[offset_bytes], "elem") };
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unsafe { builder.build_in_bounds_gep(array_data_ptr, &[elem_index], "elem") };
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// Mutate the array in-place.
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builder.build_store(elem_ptr, elem);
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@ -1135,7 +1132,7 @@ fn call_with_args<'a, 'ctx, 'env>(
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let wrapper_struct = args[0].0.into_struct_value();
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let elem_index = args[1].0.into_int_value();
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let (elem, elem_layout) = args[2];
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let (elem, _elem_layout) = args[2];
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// Load the usize length
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let _list_len = load_list_len(builder, wrapper_struct);
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@ -1146,15 +1143,9 @@ fn call_with_args<'a, 'ctx, 'env>(
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// Load the pointer to the elements
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let array_data_ptr = load_list_ptr(builder, wrapper_struct);
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let elem_bytes = elem_layout.stack_size(env.ptr_bytes) as u64;
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let elem_size = env.context.i64_type().const_int(elem_bytes, false);
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// Calculate the offset at runtime by multiplying the index by the size of an element.
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let offset_bytes = builder.build_int_mul(elem_index, elem_size, "mul_offset");
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// We already checked the bounds earlier.
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let elem_ptr =
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unsafe { builder.build_in_bounds_gep(array_data_ptr, &[offset_bytes], "elem") };
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unsafe { builder.build_in_bounds_gep(array_data_ptr, &[elem_index], "elem") };
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// Mutate the array in-place.
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builder.build_store(elem_ptr, elem);
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@ -1229,6 +1220,8 @@ fn clone_list<'a, 'ctx, 'env>(
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.build_array_malloc(elem_type, list_len, "list_ptr")
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.unwrap();
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// TODO check if malloc returned null; if so, runtime error for OOM!
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// Either memcpy or deep clone the array elements
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if elem_layout.safe_to_memcpy() {
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// Copy the bytes from the original array into the new
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@ -151,7 +151,14 @@ pub fn collection_wrapper<'ctx>(
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let ptr_type_enum = BasicTypeEnum::PointerType(ptr_type);
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let len_type = BasicTypeEnum::IntType(ptr_int(ctx, ptr_bytes));
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// This conditional is based on a constant, so the branch should be optimized away.
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// The reason for keeping the conditional here is so we can flip the order
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// of the fields (by changing the constants) without breaking this code.
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if Builtin::WRAPPER_PTR == 0 {
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ctx.struct_type(&[ptr_type_enum, len_type], false)
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} else {
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ctx.struct_type(&[len_type, ptr_type_enum], false)
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}
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}
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pub fn ptr_int(ctx: &Context, ptr_bytes: u32) -> IntType<'_> {
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@ -5,6 +5,7 @@ extern crate indoc;
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extern crate bumpalo;
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extern crate inkwell;
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extern crate libc;
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extern crate roc_gen;
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mod helpers;
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@ -541,6 +542,11 @@ mod test_gen {
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assert_llvm_evals_to!("[]", &[], &'static [i64], |x| x);
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}
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#[test]
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fn int_list_literal() {
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assert_llvm_evals_to!("[ 12, 9, 6, 3 ]", &[12, 9, 6, 3], &'static [i64], |x| x);
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}
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#[test]
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fn head_int_list() {
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assert_evals_to!("List.getUnsafe [ 12, 9, 6, 3 ] 0", 12, i64);
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@ -143,10 +143,12 @@ impl<'a> Builtin<'a> {
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pub const SET_WORDS: u32 = Builtin::MAP_WORDS; // Set is an alias for Map with {} for value
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pub const LIST_WORDS: u32 = 2;
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/// Layout of collection wrapper - a struct of (pointer, length, capacity)
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/// Layout of collection wrapper for List and Str - a struct of (pointre, length).
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///
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/// We choose this layout (with pointer first) because it's how
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/// Rust slices are laid out, meaning we can cast to/from them for free.
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pub const WRAPPER_PTR: u32 = 0;
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pub const WRAPPER_LEN: u32 = 1;
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pub const WRAPPER_CAPACITY: u32 = 2;
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pub fn stack_size(&self, pointer_size: u32) -> u32 {
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use Builtin::*;
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