[core] codegen: Add type_aligned_alloca
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eb4b881690
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@ -18,6 +18,7 @@ use nac3core::{
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irrt::ndarray::call_ndarray_calc_size,
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irrt::ndarray::call_ndarray_calc_size,
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llvm_intrinsics::{call_int_smax, call_memcpy_generic, call_stackrestore, call_stacksave},
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llvm_intrinsics::{call_int_smax, call_memcpy_generic, call_stackrestore, call_stacksave},
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stmt::{gen_block, gen_for_callback_incrementing, gen_if_callback, gen_with},
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stmt::{gen_block, gen_for_callback_incrementing, gen_if_callback, gen_with},
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type_aligned_alloca,
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types::ndarray::NDArrayType,
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types::ndarray::NDArrayType,
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values::{
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values::{
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ndarray::NDArrayValue, ArrayLikeIndexer, ArrayLikeValue, ArraySliceValue, ListValue,
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ndarray::NDArrayValue, ArrayLikeIndexer, ArrayLikeValue, ArraySliceValue, ListValue,
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@ -650,27 +651,12 @@ fn format_rpc_ret<'ctx>(
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// (4 + 4 * ndims) bytes with 8-byte alignment
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// (4 + 4 * ndims) bytes with 8-byte alignment
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let sizeof_dims =
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let sizeof_dims =
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ctx.builder.build_int_mul(ndarray.load_ndims(ctx), llvm_usize_sizeof, "").unwrap();
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ctx.builder.build_int_mul(ndarray.load_ndims(ctx), llvm_usize_sizeof, "").unwrap();
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let unaligned_buffer_size =
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let buffer_size =
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ctx.builder.build_int_add(sizeof_dims, llvm_pdata_sizeof, "").unwrap();
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ctx.builder.build_int_add(sizeof_dims, llvm_pdata_sizeof, "").unwrap();
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let buffer_size = round_up(ctx, unaligned_buffer_size, llvm_usize.const_int(8, false));
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let stackptr = call_stacksave(ctx, None);
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let stackptr = call_stacksave(ctx, None);
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// Just to be absolutely sure, alloca in [i8 x 8] slices to force 8-byte alignment
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let buffer =
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let buffer = ctx
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type_aligned_alloca(generator, ctx, llvm_i8_8, buffer_size, Some("rpc.buffer"));
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.builder
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.build_array_alloca(
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llvm_i8_8,
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ctx.builder
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.build_int_unsigned_div(buffer_size, llvm_usize.const_int(8, false), "")
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.unwrap(),
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"rpc.buffer",
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)
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.unwrap();
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let buffer = ctx
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.builder
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.build_bit_cast(buffer, llvm_pi8, "")
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.map(BasicValueEnum::into_pointer_value)
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.unwrap();
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let buffer = ArraySliceValue::from_ptr_val(buffer, buffer_size, None);
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let buffer = ArraySliceValue::from_ptr_val(buffer, buffer_size, None);
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// The first call to `rpc_recv` reads the top-level ndarray object: [pdata, shape]
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// The first call to `rpc_recv` reads the top-level ndarray object: [pdata, shape]
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@ -743,7 +729,7 @@ fn format_rpc_ret<'ctx>(
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);
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);
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}
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}
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ndarray.create_data(ctx, llvm_elem_ty, num_elements);
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ndarray.create_data(generator, ctx, llvm_elem_ty, num_elements);
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let ndarray_data = ndarray.data().base_ptr(ctx, generator);
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let ndarray_data = ndarray.data().base_ptr(ctx, generator);
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let ndarray_data_i8 =
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let ndarray_data_i8 =
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@ -2852,7 +2852,7 @@ fn gen_ndarray_subscript_expr<'ctx, G: CodeGenerator>(
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.builder
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.builder
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.build_int_z_extend_or_bit_cast(ndarray_num_elems, sizeof_elem.get_type(), "")
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.build_int_z_extend_or_bit_cast(ndarray_num_elems, sizeof_elem.get_type(), "")
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.unwrap();
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.unwrap();
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ndarray.create_data(ctx, llvm_ndarray_data_t, ndarray_num_elems);
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ndarray.create_data(generator, ctx, llvm_ndarray_data_t, ndarray_num_elems);
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let v_data_src_ptr = v.data().ptr_offset(ctx, generator, &index_addr, None);
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let v_data_src_ptr = v.data().ptr_offset(ctx, generator, &index_addr, None);
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call_memcpy_generic(
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call_memcpy_generic(
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@ -343,3 +343,25 @@ pub fn call_float_powi<'ctx>(
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.map(Either::unwrap_left)
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.map(Either::unwrap_left)
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.unwrap()
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.unwrap()
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}
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}
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/// Invokes the [`llvm.ctpop`](https://llvm.org/docs/LangRef.html#llvm-ctpop-intrinsic) intrinsic.
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pub fn call_int_ctpop<'ctx>(
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ctx: &CodeGenContext<'ctx, '_>,
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src: IntValue<'ctx>,
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name: Option<&str>,
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) -> IntValue<'ctx> {
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const FN_NAME: &str = "llvm.ctpop";
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let llvm_src_t = src.get_type();
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let intrinsic_fn = Intrinsic::find(FN_NAME)
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.and_then(|intrinsic| intrinsic.get_declaration(&ctx.module, &[llvm_src_t.into()]))
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.unwrap();
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ctx.builder
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.build_call(intrinsic_fn, &[src.into()], name.unwrap_or_default())
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.map(CallSiteValue::try_as_basic_value)
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.map(|v| v.map_left(BasicValueEnum::into_int_value))
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.map(Either::unwrap_left)
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.unwrap()
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}
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@ -1119,3 +1119,106 @@ fn gen_in_range_check<'ctx>(
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fn get_va_count_arg_name(arg_name: StrRef) -> StrRef {
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fn get_va_count_arg_name(arg_name: StrRef) -> StrRef {
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format!("__{}_va_count", &arg_name).into()
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format!("__{}_va_count", &arg_name).into()
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}
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}
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/// Returns the alignment of the type.
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///
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/// This is necessary as `get_alignment` is not implemented as part of [`BasicType`].
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pub fn get_type_alignment<'ctx>(ty: impl Into<BasicTypeEnum<'ctx>>) -> IntValue<'ctx> {
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match ty.into() {
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BasicTypeEnum::ArrayType(ty) => ty.get_alignment(),
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BasicTypeEnum::FloatType(ty) => ty.get_alignment(),
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BasicTypeEnum::IntType(ty) => ty.get_alignment(),
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BasicTypeEnum::PointerType(ty) => ty.get_alignment(),
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BasicTypeEnum::StructType(ty) => ty.get_alignment(),
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BasicTypeEnum::VectorType(ty) => ty.get_alignment(),
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}
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}
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/// Inserts an `alloca` instruction with allocation `size` given in bytes and the alignment of the
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/// given type.
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///
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/// The returned [`PointerValue`] will have a type of `i8*`, a size of at least `size`, and will be
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/// aligned with the alignment of `align_ty`.
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pub fn type_aligned_alloca<'ctx, G: CodeGenerator + ?Sized>(
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generator: &mut G,
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ctx: &mut CodeGenContext<'ctx, '_>,
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align_ty: impl Into<BasicTypeEnum<'ctx>>,
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size: IntValue<'ctx>,
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name: Option<&str>,
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) -> PointerValue<'ctx> {
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/// Round `val` up to its modulo `power_of_two`.
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fn round_up<'ctx>(
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ctx: &CodeGenContext<'ctx, '_>,
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val: IntValue<'ctx>,
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power_of_two: IntValue<'ctx>,
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) -> IntValue<'ctx> {
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debug_assert_eq!(
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val.get_type().get_bit_width(),
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power_of_two.get_type().get_bit_width(),
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"`val` ({}) and `power_of_two` ({}) must be the same type",
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val.get_type(),
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power_of_two.get_type(),
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);
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let llvm_val_t = val.get_type();
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let max_rem =
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ctx.builder.build_int_sub(power_of_two, llvm_val_t.const_int(1, false), "").unwrap();
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ctx.builder
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.build_and(
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ctx.builder.build_int_add(val, max_rem, "").unwrap(),
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ctx.builder.build_not(max_rem, "").unwrap(),
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"",
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)
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.unwrap()
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}
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let llvm_i8 = ctx.ctx.i8_type();
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let llvm_pi8 = llvm_i8.ptr_type(AddressSpace::default());
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let llvm_usize = generator.get_size_type(ctx.ctx);
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let align_ty = align_ty.into();
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let size = ctx.builder.build_int_truncate_or_bit_cast(size, llvm_usize, "").unwrap();
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debug_assert_eq!(
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size.get_type().get_bit_width(),
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llvm_usize.get_bit_width(),
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"Expected size_t ({}) for parameter `size` of `aligned_alloca`, got {}",
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llvm_usize,
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size.get_type(),
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);
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let alignment = get_type_alignment(align_ty);
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let alignment = ctx.builder.build_int_truncate_or_bit_cast(alignment, llvm_usize, "").unwrap();
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if ctx.registry.llvm_options.opt_level == OptimizationLevel::None {
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let alignment_bitcount = llvm_intrinsics::call_int_ctpop(ctx, alignment, None);
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ctx.make_assert(
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generator,
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ctx.builder
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.build_int_compare(
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IntPredicate::EQ,
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alignment_bitcount,
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alignment_bitcount.get_type().const_int(1, false),
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"",
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)
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.unwrap(),
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"0:AssertionError",
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"Expected power-of-two alignment for aligned_alloca, got {0}",
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[Some(alignment), None, None],
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ctx.current_loc,
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);
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}
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let buffer_size = round_up(ctx, size, alignment);
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let aligned_slices = ctx.builder.build_int_unsigned_div(buffer_size, alignment, "").unwrap();
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// Just to be absolutely sure, alloca in [i8 x alignment] slices
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let buffer = ctx.builder.build_array_alloca(align_ty, aligned_slices, "").unwrap();
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ctx.builder
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.build_bit_cast(buffer, llvm_pi8, name.unwrap_or_default())
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.map(BasicValueEnum::into_pointer_value)
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.unwrap()
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}
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@ -235,7 +235,7 @@ fn ndarray_init_data<'ctx, G: CodeGenerator + ?Sized>(
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&ndarray.shape().as_slice_value(ctx, generator),
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&ndarray.shape().as_slice_value(ctx, generator),
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(None, None),
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(None, None),
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);
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);
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ndarray.create_data(ctx, llvm_ndarray_data_t, ndarray_num_elems);
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ndarray.create_data(generator, ctx, llvm_ndarray_data_t, ndarray_num_elems);
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ndarray
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ndarray
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}
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}
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@ -12,6 +12,7 @@ use crate::codegen::{
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irrt,
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irrt,
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llvm_intrinsics::call_int_umin,
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llvm_intrinsics::call_int_umin,
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stmt::gen_for_callback_incrementing,
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stmt::gen_for_callback_incrementing,
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type_aligned_alloca,
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types::{ndarray::NDArrayType, structure::StructField},
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types::{ndarray::NDArrayType, structure::StructField},
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CodeGenContext, CodeGenerator,
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CodeGenContext, CodeGenerator,
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};
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};
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@ -128,9 +129,10 @@ impl<'ctx> NDArrayValue<'ctx> {
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/// Convenience method for creating a new array storing data elements with the given element
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/// Convenience method for creating a new array storing data elements with the given element
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/// type `elem_ty` and `size`.
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/// type `elem_ty` and `size`.
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pub fn create_data(
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pub fn create_data<G: CodeGenerator + ?Sized>(
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&self,
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&self,
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ctx: &CodeGenContext<'ctx, '_>,
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generator: &mut G,
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ctx: &mut CodeGenContext<'ctx, '_>,
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elem_ty: BasicTypeEnum<'ctx>,
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elem_ty: BasicTypeEnum<'ctx>,
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size: IntValue<'ctx>,
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size: IntValue<'ctx>,
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) {
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) {
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@ -140,11 +142,8 @@ impl<'ctx> NDArrayValue<'ctx> {
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.unwrap();
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.unwrap();
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let nbytes = ctx.builder.build_int_mul(size, itemsize, "").unwrap();
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let nbytes = ctx.builder.build_int_mul(size, itemsize, "").unwrap();
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// TODO: What about alignment?
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let data = type_aligned_alloca(generator, ctx, elem_ty, nbytes, None);
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self.store_data(
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self.store_data(ctx, data);
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ctx,
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ctx.builder.build_array_alloca(ctx.ctx.i8_type(), nbytes, "").unwrap(),
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);
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}
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}
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/// Returns a proxy object to the field storing the data of this `NDArray`.
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/// Returns a proxy object to the field storing the data of this `NDArray`.
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