[artiq] codegen: Reimplement polymorphic_print for strided ndarray
Based on 2a6ee503: artiq: reimplement polymorphic_print for ndarray
This commit is contained in:
parent
e4bd376587
commit
44c49dc102
@ -12,11 +12,12 @@ use pyo3::{
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PyObject, PyResult, Python,
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PyObject, PyResult, Python,
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};
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};
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use super::{symbol_resolver::InnerResolver, timeline::TimeFns};
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use nac3core::{
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use nac3core::{
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codegen::{
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codegen::{
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expr::{destructure_range, gen_call},
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expr::{destructure_range, gen_call},
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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, 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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type_aligned_alloca,
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types::ndarray::NDArrayType,
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types::ndarray::NDArrayType,
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@ -43,8 +44,6 @@ use nac3core::{
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typecheck::typedef::{iter_type_vars, FunSignature, FuncArg, Type, TypeEnum, VarMap},
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typecheck::typedef::{iter_type_vars, FunSignature, FuncArg, Type, TypeEnum, VarMap},
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};
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};
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use super::{symbol_resolver::InnerResolver, timeline::TimeFns};
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/// The parallelism mode within a block.
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/// The parallelism mode within a block.
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#[derive(Copy, Clone, Eq, PartialEq)]
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#[derive(Copy, Clone, Eq, PartialEq)]
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enum ParallelMode {
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enum ParallelMode {
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@ -465,55 +464,47 @@ fn format_rpc_arg<'ctx>(
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let (elem_ty, ndims) = unpack_ndarray_var_tys(&mut ctx.unifier, arg_ty);
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let (elem_ty, ndims) = unpack_ndarray_var_tys(&mut ctx.unifier, arg_ty);
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let ndims = extract_ndims(&ctx.unifier, ndims);
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let ndims = extract_ndims(&ctx.unifier, ndims);
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let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty);
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let dtype = ctx.get_llvm_type(generator, elem_ty);
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let llvm_arg_ty = NDArrayType::new(generator, ctx.ctx, llvm_elem_ty, Some(ndims));
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let ndarray = NDArrayType::new(generator, ctx.ctx, dtype, Some(ndims))
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let llvm_arg = llvm_arg_ty.map_value(arg.into_pointer_value(), None);
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.map_value(arg.into_pointer_value(), None);
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let llvm_usize_sizeof = ctx
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let ndims = llvm_usize.const_int(ndims, false);
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.builder
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.build_int_truncate_or_bit_cast(
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llvm_arg.get_type().size_type().size_of(),
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llvm_usize,
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"",
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)
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.unwrap();
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let llvm_pdata_sizeof = ctx
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.builder
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.build_int_truncate_or_bit_cast(
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llvm_elem_ty.ptr_type(AddressSpace::default()).size_of(),
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llvm_usize,
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"",
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)
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.unwrap();
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let dims_buf_sz =
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// `ndarray.data` is possibly not contiguous, and we need it to be contiguous for
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ctx.builder.build_int_mul(llvm_arg.load_ndims(ctx), llvm_usize_sizeof, "").unwrap();
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// the reader.
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// Turning it into a ContiguousNDArray to get a `data` that is contiguous.
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let carray = ndarray.make_contiguous_ndarray(generator, ctx);
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let buffer_size =
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let sizeof_usize = llvm_usize.size_of();
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ctx.builder.build_int_add(dims_buf_sz, llvm_pdata_sizeof, "").unwrap();
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let sizeof_usize =
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ctx.builder.build_int_z_extend_or_bit_cast(sizeof_usize, llvm_usize, "").unwrap();
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let buffer = ctx.builder.build_array_alloca(llvm_i8, buffer_size, "rpc.arg").unwrap();
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let sizeof_pdata = dtype.ptr_type(AddressSpace::default()).size_of();
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let buffer = ArraySliceValue::from_ptr_val(buffer, buffer_size, Some("rpc.arg"));
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let sizeof_pdata =
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ctx.builder.build_int_z_extend_or_bit_cast(sizeof_pdata, llvm_usize, "").unwrap();
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call_memcpy_generic(
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let sizeof_buf_shape = ctx.builder.build_int_mul(sizeof_usize, ndims, "").unwrap();
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ctx,
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let sizeof_buf = ctx.builder.build_int_add(sizeof_buf_shape, sizeof_pdata, "").unwrap();
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buffer.base_ptr(ctx, generator),
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llvm_arg.ptr_to_data(ctx),
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llvm_pdata_sizeof,
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llvm_i1.const_zero(),
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);
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let pbuffer_dims_begin =
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// buf = { data: void*, shape: [size_t; ndims]; }
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unsafe { buffer.ptr_offset_unchecked(ctx, generator, &llvm_pdata_sizeof, None) };
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let buf = ctx.builder.build_array_alloca(llvm_i8, sizeof_buf, "rpc.arg").unwrap();
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call_memcpy_generic(
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let buf = ArraySliceValue::from_ptr_val(buf, sizeof_buf, Some("rpc.arg"));
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ctx,
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let buf_data = buf.base_ptr(ctx, generator);
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pbuffer_dims_begin,
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let buf_shape =
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llvm_arg.shape().base_ptr(ctx, generator),
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unsafe { buf.ptr_offset_unchecked(ctx, generator, &sizeof_pdata, None) };
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dims_buf_sz,
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llvm_i1.const_zero(),
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);
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buffer.base_ptr(ctx, generator)
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// Write to `buf->data`
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let carray_data = carray.load_data(ctx);
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let carray_data = ctx.builder.build_pointer_cast(carray_data, llvm_pi8, "").unwrap();
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call_memcpy(ctx, buf_data, carray_data, sizeof_pdata, llvm_i1.const_zero());
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// Write to `buf->shape`
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let carray_shape = ndarray.shape().base_ptr(ctx, generator);
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let carray_shape_i8 =
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ctx.builder.build_pointer_cast(carray_shape, llvm_pi8, "").unwrap();
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call_memcpy(ctx, buf_shape, carray_shape_i8, sizeof_buf_shape, llvm_i1.const_zero());
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buf.base_ptr(ctx, generator)
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}
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}
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_ => {
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_ => {
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@ -554,6 +545,8 @@ fn format_rpc_ret<'ctx>(
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let llvm_i32 = ctx.ctx.i32_type();
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let llvm_i32 = ctx.ctx.i32_type();
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let llvm_i8_8 = ctx.ctx.struct_type(&[llvm_i8.array_type(8).into()], false);
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let llvm_i8_8 = ctx.ctx.struct_type(&[llvm_i8.array_type(8).into()], false);
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let llvm_pi8 = llvm_i8.ptr_type(AddressSpace::default());
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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 llvm_pusize = llvm_usize.ptr_type(AddressSpace::default());
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let rpc_recv = ctx.module.get_function("rpc_recv").unwrap_or_else(|| {
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let rpc_recv = ctx.module.get_function("rpc_recv").unwrap_or_else(|| {
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ctx.module.add_function("rpc_recv", llvm_i32.fn_type(&[llvm_pi8.into()], false), None)
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ctx.module.add_function("rpc_recv", llvm_i32.fn_type(&[llvm_pi8.into()], false), None)
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@ -574,8 +567,7 @@ fn format_rpc_ret<'ctx>(
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let result = match &*ctx.unifier.get_ty_immutable(ret_ty) {
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let result = match &*ctx.unifier.get_ty_immutable(ret_ty) {
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TypeEnum::TObj { obj_id, .. } if *obj_id == PrimDef::NDArray.id() => {
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TypeEnum::TObj { obj_id, .. } if *obj_id == PrimDef::NDArray.id() => {
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let llvm_i1 = ctx.ctx.bool_type();
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let num_0 = llvm_usize.const_zero();
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let llvm_usize = generator.get_size_type(ctx.ctx);
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// Round `val` up to its modulo `power_of_two`
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// Round `val` up to its modulo `power_of_two`
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let round_up = |ctx: &mut CodeGenContext<'ctx, '_>,
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let round_up = |ctx: &mut CodeGenContext<'ctx, '_>,
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@ -601,56 +593,49 @@ fn format_rpc_ret<'ctx>(
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.unwrap()
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.unwrap()
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};
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};
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// Setup types
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let llvm_ret_ty = NDArrayType::from_unifier_type(generator, ctx, ret_ty);
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let llvm_elem_ty = llvm_ret_ty.element_type();
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// Allocate the resulting ndarray
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// Allocate the resulting ndarray
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// A condition after format_rpc_ret ensures this will not be popped this off.
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// A condition after format_rpc_ret ensures this will not be popped this off.
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let ndarray = llvm_ret_ty.alloca(generator, ctx, Some("rpc.result"));
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let (dtype, ndims) = unpack_ndarray_var_tys(&mut ctx.unifier, ret_ty);
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let dtype_llvm = ctx.get_llvm_type(generator, dtype);
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let ndims = extract_ndims(&ctx.unifier, ndims);
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let ndarray = NDArrayType::new(generator, ctx.ctx, dtype_llvm, Some(ndims))
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.construct_uninitialized(generator, ctx, None);
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// Setup ndims
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// NOTE: Current content of `ndarray`:
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let ndims = llvm_ret_ty.ndims().unwrap();
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// - * `data` - **NOT YET** allocated.
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// Set `ndarray.ndims`
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// - * `itemsize` - initialized to be size_of(dtype).
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ndarray.store_ndims(ctx, generator, llvm_usize.const_int(ndims, false));
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// - * `ndims` - initialized.
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// Allocate `ndarray.shape` [size_t; ndims]
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// - * `shape` - allocated; has uninitialized values.
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ndarray.create_shape(ctx, llvm_usize, ndarray.load_ndims(ctx));
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// - * `strides` - allocated; has uninitialized values.
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/*
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let itemsize = ndarray.load_itemsize(ctx); // Same as doing a `ctx.get_llvm_type` on `dtype` and get its `size_of()`.
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ndarray now:
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- .ndims: initialized
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- .shape: allocated but uninitialized .shape
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- .data: uninitialized
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*/
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let llvm_usize_sizeof = ctx
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.builder
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.build_int_truncate_or_bit_cast(llvm_usize.size_of(), llvm_usize, "")
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.unwrap();
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let llvm_pdata_sizeof = ctx
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.builder
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.build_int_truncate_or_bit_cast(
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llvm_elem_ty.ptr_type(AddressSpace::default()).size_of(),
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llvm_usize,
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"",
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)
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.unwrap();
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let llvm_elem_sizeof = ctx
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.builder
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.build_int_truncate_or_bit_cast(llvm_elem_ty.size_of().unwrap(), llvm_usize, "")
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.unwrap();
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// Allocates a buffer for the initial RPC'ed object, which is guaranteed to be
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// Allocates a buffer for the initial RPC'ed object, which is guaranteed to be
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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_usize = llvm_usize.size_of();
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ctx.builder.build_int_mul(ndarray.load_ndims(ctx), llvm_usize_sizeof, "").unwrap();
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let sizeof_usize =
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let buffer_size =
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ctx.builder.build_int_truncate_or_bit_cast(sizeof_usize, llvm_usize, "").unwrap();
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ctx.builder.build_int_add(sizeof_dims, llvm_pdata_sizeof, "").unwrap();
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let sizeof_ptr = llvm_i8.ptr_type(AddressSpace::default()).size_of();
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let sizeof_ptr =
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ctx.builder.build_int_z_extend_or_bit_cast(sizeof_ptr, llvm_usize, "").unwrap();
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let sizeof_shape =
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ctx.builder.build_int_mul(ndarray.load_ndims(ctx), sizeof_usize, "").unwrap();
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// Size of the buffer for the initial `rpc_recv()`.
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let unaligned_buffer_size =
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ctx.builder.build_int_add(sizeof_ptr, sizeof_shape, "").unwrap();
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let stackptr = call_stacksave(ctx, None);
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let stackptr = call_stacksave(ctx, None);
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let buffer =
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let buffer = type_aligned_alloca(
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type_aligned_alloca(generator, ctx, llvm_i8_8, buffer_size, Some("rpc.buffer"));
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generator,
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let buffer = ArraySliceValue::from_ptr_val(buffer, buffer_size, None);
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ctx,
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llvm_i8_8,
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unaligned_buffer_size,
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Some("rpc.buffer"),
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);
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let buffer = ArraySliceValue::from_ptr_val(buffer, unaligned_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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//
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//
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@ -658,7 +643,7 @@ fn format_rpc_ret<'ctx>(
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let ndarray_nbytes = ctx
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let ndarray_nbytes = ctx
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.build_call_or_invoke(
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.build_call_or_invoke(
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rpc_recv,
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rpc_recv,
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&[buffer.base_ptr(ctx, generator).into()], // Reads [usize; ndims]. NOTE: We are allocated [size_t; ndims].
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&[buffer.base_ptr(ctx, generator).into()], // Reads [usize; ndims]
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"rpc.size.next",
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"rpc.size.next",
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)
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)
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.map(BasicValueEnum::into_int_value)
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.map(BasicValueEnum::into_int_value)
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@ -666,16 +651,14 @@ fn format_rpc_ret<'ctx>(
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// debug_assert(ndarray_nbytes > 0)
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// debug_assert(ndarray_nbytes > 0)
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if ctx.registry.llvm_options.opt_level == OptimizationLevel::None {
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if ctx.registry.llvm_options.opt_level == OptimizationLevel::None {
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let cmp = ctx
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.builder
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.build_int_compare(IntPredicate::UGT, ndarray_nbytes, num_0, "")
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.unwrap();
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ctx.make_assert(
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ctx.make_assert(
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generator,
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generator,
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ctx.builder
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cmp,
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.build_int_compare(
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IntPredicate::UGT,
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ndarray_nbytes,
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ndarray_nbytes.get_type().const_zero(),
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"",
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)
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.unwrap(),
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"0:AssertionError",
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"0:AssertionError",
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"Unexpected RPC termination for ndarray - Expected data buffer next",
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"Unexpected RPC termination for ndarray - Expected data buffer next",
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[None, None, None],
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[None, None, None],
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@ -684,49 +667,50 @@ fn format_rpc_ret<'ctx>(
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}
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}
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// Copy shape from the buffer to `ndarray.shape`.
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// Copy shape from the buffer to `ndarray.shape`.
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let pbuffer_dims =
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// We need to skip the first `sizeof(uint8_t*)` bytes to skip the `pdata` in `[pdata, shape]`.
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unsafe { buffer.ptr_offset_unchecked(ctx, generator, &llvm_pdata_sizeof, None) };
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let pbuffer_shape =
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unsafe { buffer.ptr_offset_unchecked(ctx, generator, &sizeof_ptr, None) };
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let pbuffer_shape =
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ctx.builder.build_pointer_cast(pbuffer_shape, llvm_pusize, "").unwrap();
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// Copy shape from buffer to `ndarray.shape`
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ndarray.copy_shape_from_array(generator, ctx, pbuffer_shape);
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call_memcpy_generic(
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ctx,
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ndarray.shape().base_ptr(ctx, generator),
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pbuffer_dims,
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sizeof_dims,
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llvm_i1.const_zero(),
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);
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// Restore stack from before allocation of buffer
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// Restore stack from before allocation of buffer
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call_stackrestore(ctx, stackptr);
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call_stackrestore(ctx, stackptr);
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// Allocate `ndarray.data`.
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// Allocate `ndarray.data`.
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// `ndarray.shape` must be initialized beforehand in this implementation
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// `ndarray.shape` must be initialized beforehand in this implementation
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// (for ndarray.create_data() to know how many elements to allocate)
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// (for ndarray.create_data() to know how many elements to allocate)
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let num_elements =
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unsafe { ndarray.create_data(generator, ctx) }; // NOTE: the strides of `ndarray` has also been set to contiguous in `create_data`.
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call_ndarray_calc_size(generator, ctx, &ndarray.shape(), (None, None));
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// debug_assert(nelems * sizeof(T) >= ndarray_nbytes)
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// debug_assert(nelems * sizeof(T) >= ndarray_nbytes)
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if ctx.registry.llvm_options.opt_level == OptimizationLevel::None {
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if ctx.registry.llvm_options.opt_level == OptimizationLevel::None {
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let sizeof_data =
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let num_elements = ndarray.size(generator, ctx);
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ctx.builder.build_int_mul(num_elements, llvm_elem_sizeof, "").unwrap();
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let expected_ndarray_nbytes =
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ctx.builder.build_int_mul(num_elements, itemsize, "").unwrap();
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let cmp = ctx
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.builder
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.build_int_compare(
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IntPredicate::UGE,
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expected_ndarray_nbytes,
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ndarray_nbytes,
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"",
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)
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.unwrap();
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ctx.make_assert(
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ctx.make_assert(
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generator,
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generator,
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ctx.builder.build_int_compare(IntPredicate::UGE,
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cmp,
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sizeof_data,
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ndarray_nbytes,
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"",
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).unwrap(),
|
|
||||||
"0:AssertionError",
|
"0:AssertionError",
|
||||||
"Unexpected allocation size request for ndarray data - Expected up to {0} bytes, got {1} bytes",
|
"Unexpected allocation size request for ndarray data - Expected up to {0} bytes, got {1} bytes",
|
||||||
[Some(sizeof_data), Some(ndarray_nbytes), None],
|
[Some(expected_ndarray_nbytes), Some(ndarray_nbytes), None],
|
||||||
ctx.current_loc,
|
ctx.current_loc,
|
||||||
);
|
);
|
||||||
}
|
}
|
||||||
|
|
||||||
unsafe { ndarray.create_data(generator, ctx) };
|
|
||||||
|
|
||||||
let ndarray_data = ndarray.data().base_ptr(ctx, generator);
|
let ndarray_data = ndarray.data().base_ptr(ctx, generator);
|
||||||
let ndarray_data_i8 =
|
|
||||||
ctx.builder.build_pointer_cast(ndarray_data, llvm_pi8, "").unwrap();
|
|
||||||
|
|
||||||
// NOTE: Currently on `prehead_bb`
|
// NOTE: Currently on `prehead_bb`
|
||||||
ctx.builder.build_unconditional_branch(head_bb).unwrap();
|
ctx.builder.build_unconditional_branch(head_bb).unwrap();
|
||||||
@ -735,7 +719,7 @@ fn format_rpc_ret<'ctx>(
|
|||||||
ctx.builder.position_at_end(head_bb);
|
ctx.builder.position_at_end(head_bb);
|
||||||
|
|
||||||
let phi = ctx.builder.build_phi(llvm_pi8, "rpc.ptr").unwrap();
|
let phi = ctx.builder.build_phi(llvm_pi8, "rpc.ptr").unwrap();
|
||||||
phi.add_incoming(&[(&ndarray_data_i8, prehead_bb)]);
|
phi.add_incoming(&[(&ndarray_data, prehead_bb)]);
|
||||||
|
|
||||||
let alloc_size = ctx
|
let alloc_size = ctx
|
||||||
.build_call_or_invoke(rpc_recv, &[phi.as_basic_value()], "rpc.size.next")
|
.build_call_or_invoke(rpc_recv, &[phi.as_basic_value()], "rpc.size.next")
|
||||||
@ -750,12 +734,13 @@ fn format_rpc_ret<'ctx>(
|
|||||||
|
|
||||||
ctx.builder.position_at_end(alloc_bb);
|
ctx.builder.position_at_end(alloc_bb);
|
||||||
// Align the allocation to sizeof(T)
|
// Align the allocation to sizeof(T)
|
||||||
let alloc_size = round_up(ctx, alloc_size, llvm_elem_sizeof);
|
let alloc_size = round_up(ctx, alloc_size, itemsize);
|
||||||
|
// TODO(Derppening): Candidate for refactor into type_aligned_alloca
|
||||||
let alloc_ptr = ctx
|
let alloc_ptr = ctx
|
||||||
.builder
|
.builder
|
||||||
.build_array_alloca(
|
.build_array_alloca(
|
||||||
llvm_elem_ty,
|
dtype_llvm,
|
||||||
ctx.builder.build_int_unsigned_div(alloc_size, llvm_elem_sizeof, "").unwrap(),
|
ctx.builder.build_int_unsigned_div(alloc_size, itemsize, "").unwrap(),
|
||||||
"rpc.alloc",
|
"rpc.alloc",
|
||||||
)
|
)
|
||||||
.unwrap();
|
.unwrap();
|
||||||
|
|||||||
Loading…
Reference in New Issue
Block a user