[numthreads(1, 1, 1)] void unused_entry_point() { return; } struct S { int4 arr[4]; }; static int4 src_private[4] = (int4[4])0; groupshared int4 src_workgroup[4]; cbuffer cbuffer_src_uniform : register(b0, space0) { uint4 src_uniform[4]; }; RWByteAddressBuffer src_storage : register(u1, space0); static int4 tint_symbol[4] = (int4[4])0; static int dst_nested[4][3][2] = (int[4][3][2])0; typedef int4 ret_arr_ret[4]; ret_arr_ret ret_arr() { const int4 tint_symbol_6[4] = (int4[4])0; return tint_symbol_6; } S ret_struct_arr() { const S tint_symbol_7 = (S)0; return tint_symbol_7; } typedef int4 tint_symbol_2_ret[4]; tint_symbol_2_ret tint_symbol_2(uint4 buffer[4], uint offset) { int4 arr_1[4] = (int4[4])0; { [loop] for(uint i = 0u; (i < 4u); i = (i + 1u)) { const uint scalar_offset = ((offset + (i * 16u))) / 4; arr_1[i] = asint(buffer[scalar_offset / 4]); } } return arr_1; } typedef int4 tint_symbol_4_ret[4]; tint_symbol_4_ret tint_symbol_4(RWByteAddressBuffer buffer, uint offset) { int4 arr_2[4] = (int4[4])0; { [loop] for(uint i_1 = 0u; (i_1 < 4u); i_1 = (i_1 + 1u)) { arr_2[i_1] = asint(buffer.Load4((offset + (i_1 * 16u)))); } } return arr_2; } void foo(int4 src_param[4]) { int4 src_function[4] = (int4[4])0; const int4 tint_symbol_8[4] = {int4((1).xxxx), int4((2).xxxx), int4((3).xxxx), int4((3).xxxx)}; tint_symbol = tint_symbol_8; tint_symbol = src_param; tint_symbol = ret_arr(); const int4 src_let[4] = (int4[4])0; tint_symbol = src_let; tint_symbol = src_function; tint_symbol = src_private; tint_symbol = src_workgroup; const S tint_symbol_1 = ret_struct_arr(); tint_symbol = tint_symbol_1.arr; tint_symbol = tint_symbol_2(src_uniform, 0u); tint_symbol = tint_symbol_4(src_storage, 0u); int src_nested[4][3][2] = (int[4][3][2])0; dst_nested = src_nested; }