blob: eeaddb18f872e24274e5e5ae80cfc830e30fa579 [file] [log] [blame]
#include <metal_stdlib>
using namespace metal;
template<typename T, size_t N>
struct tint_array {
const constant T& operator[](size_t i) const constant { return elements[i]; }
device T& operator[](size_t i) device { return elements[i]; }
const device T& operator[](size_t i) const device { return elements[i]; }
thread T& operator[](size_t i) thread { return elements[i]; }
const thread T& operator[](size_t i) const thread { return elements[i]; }
threadgroup T& operator[](size_t i) threadgroup { return elements[i]; }
const threadgroup T& operator[](size_t i) const threadgroup { return elements[i]; }
T elements[N];
};
struct S {
/* 0x0000 */ tint_array<int4, 4> arr;
};
struct S_nested {
/* 0x0000 */ tint_array<tint_array<tint_array<int, 2>, 3>, 4> arr;
};
struct tint_module_vars_struct {
thread tint_array<int4, 4>* src_private;
threadgroup tint_array<int4, 4>* src_workgroup;
const constant S* src_uniform;
device S* src_storage;
device S* dst;
device S_nested* dst_nested;
};
#define TINT_ISOLATE_UB(VOLATILE_NAME) \
volatile bool VOLATILE_NAME = true; \
if (VOLATILE_NAME)
struct tint_symbol_2 {
tint_array<int4, 4> tint_symbol_1;
};
tint_array<int4, 4> ret_arr() {
return tint_array<int4, 4>{};
}
S ret_struct_arr() {
return S{};
}
void foo(tint_array<int4, 4> src_param, tint_module_vars_struct tint_module_vars) {
tint_array<int4, 4> src_function = {};
(*tint_module_vars.dst).arr = tint_array<int4, 4>{int4(1), int4(2), int4(3), int4(3)};
(*tint_module_vars.dst).arr = src_param;
(*tint_module_vars.dst).arr = ret_arr();
tint_array<int4, 4> const src_let = tint_array<int4, 4>{};
(*tint_module_vars.dst).arr = src_let;
(*tint_module_vars.dst).arr = src_function;
(*tint_module_vars.dst).arr = (*tint_module_vars.src_private);
(*tint_module_vars.dst).arr = (*tint_module_vars.src_workgroup);
(*tint_module_vars.dst).arr = ret_struct_arr().arr;
(*tint_module_vars.dst).arr = (*tint_module_vars.src_uniform).arr;
(*tint_module_vars.dst).arr = (*tint_module_vars.src_storage).arr;
tint_array<tint_array<tint_array<int, 2>, 3>, 4> src_nested = {};
(*tint_module_vars.dst_nested).arr = src_nested;
}
void tint_symbol_inner(uint tint_local_index, tint_module_vars_struct tint_module_vars) {
{
uint v = 0u;
v = tint_local_index;
TINT_ISOLATE_UB(tint_volatile_true) while(true) {
uint const v_1 = v;
if ((v_1 >= 4u)) {
break;
}
(*tint_module_vars.src_workgroup)[v_1] = int4(0);
{
v = (v_1 + 1u);
}
continue;
}
}
threadgroup_barrier(mem_flags::mem_threadgroup);
tint_array<int4, 4> const ary = tint_array<int4, 4>{};
foo(ary, tint_module_vars);
}
kernel void tint_symbol(uint tint_local_index [[thread_index_in_threadgroup]], threadgroup tint_symbol_2* v_2 [[threadgroup(0)]], const constant S* src_uniform [[buffer(0)]], device S* src_storage [[buffer(2)]], device S* dst [[buffer(1)]], device S_nested* dst_nested [[buffer(3)]]) {
thread tint_array<int4, 4> src_private = {};
tint_module_vars_struct const tint_module_vars = tint_module_vars_struct{.src_private=(&src_private), .src_workgroup=(&(*v_2).tint_symbol_1), .src_uniform=src_uniform, .src_storage=src_storage, .dst=dst, .dst_nested=dst_nested};
tint_symbol_inner(tint_local_index, tint_module_vars);
}