blob: 31c71a4b56785460a9270b5a4ded24b3a86a44b5 [file] [log] [blame]
struct S {
int a;
int b;
};
struct main_inputs {
uint tint_local_index : SV_GroupIndex;
};
RWByteAddressBuffer s : register(u0);
groupshared int g1;
int accept_value(int val) {
return val;
}
int accept_ptr_deref_call_func(inout int val) {
int v = val;
return (v + accept_value(val));
}
int accept_ptr_deref_pass_through(inout int val) {
int v_1 = val;
return (v_1 + accept_ptr_deref_call_func(val));
}
int accept_ptr_to_struct_and_access(inout S val) {
return (val.a + val.b);
}
int accept_ptr_to_struct_access_pass_ptr(inout S val) {
int b = val.a;
b = int(2);
return b;
}
int tint_f32_to_i32(float value) {
return (((value <= 2147483520.0f)) ? ((((value >= -2147483648.0f)) ? (int(value)) : (int(-2147483648)))) : (int(2147483647)));
}
int accept_ptr_vec_access_elements(inout float3 v1) {
v1[0u] = cross(v1, v1)[0u];
return tint_f32_to_i32(v1.x);
}
int call_builtin_with_mod_scope_ptr() {
int v_2 = int(0);
InterlockedOr(g1, int(0), v_2);
return v_2;
}
void main_inner(uint tint_local_index) {
if ((tint_local_index == 0u)) {
int v_3 = int(0);
InterlockedExchange(g1, int(0), v_3);
}
GroupMemoryBarrierWithGroupSync();
int v1 = int(0);
S v2 = (S)0;
S v3 = v2;
float3 v4 = (0.0f).xxx;
int v_4 = int(0);
InterlockedOr(g1, int(0), v_4);
int t1 = v_4;
int v_5 = accept_ptr_deref_pass_through(v1);
int v_6 = (v_5 + accept_ptr_to_struct_and_access(v2));
int v_7 = (v_6 + accept_ptr_to_struct_and_access(v3));
int v_8 = (v_7 + accept_ptr_vec_access_elements(v4));
int v_9 = (v_8 + accept_ptr_to_struct_access_pass_ptr(v2));
s.Store(0u, asuint(((v_9 + call_builtin_with_mod_scope_ptr()) + t1)));
}
[numthreads(1, 1, 1)]
void main(main_inputs inputs) {
main_inner(inputs.tint_local_index);
}