//#Safe
type _SIZE_T_TYPE = bv32;
procedure _ATOMIC_OP32(x: [bv32]bv32, y: bv32) returns (z$1: bv32, A$1: [bv32]bv32, z$2: bv32, A$2: [bv32]bv32);
axiom {:array_info "$$A"} {:group_shared} {:elem_width 32} {:source_name "A"} {:source_elem_width 32} {:source_dimensions "*"} true;
var {:race_checking} {:group_shared} {:elem_width 32} {:source_elem_width 32} {:source_dimensions "*"} _READ_HAS_OCCURRED_$$A: bool;
var {:race_checking} {:group_shared} {:elem_width 32} {:source_elem_width 32} {:source_dimensions "*"} _WRITE_HAS_OCCURRED_$$A: bool;
var {:race_checking} {:group_shared} {:elem_width 32} {:source_elem_width 32} {:source_dimensions "*"} _ATOMIC_HAS_OCCURRED_$$A: bool;
const _WATCHED_OFFSET: bv32;
const {:global_offset_x} global_offset_x: bv32;
const {:global_offset_y} global_offset_y: bv32;
const {:global_offset_z} global_offset_z: bv32;
const {:group_size_x} group_size_x: bv32;
const {:group_size_y} group_size_y: bv32;
const {:group_size_z} group_size_z: bv32;
const {:num_groups_x} num_groups_x: bv32;
const {:num_groups_y} num_groups_y: bv32;
const {:num_groups_z} num_groups_z: bv32;
function {:builtin "bvmul"} BV32_MUL(bv32, bv32) : bv32;
function {:builtin "bvugt"} BV32_UGT(bv32, bv32) : bool;
function {:builtin "bvurem"} BV32_UREM(bv32, bv32) : bv32;
procedure {:source_name "foo"} ULTIMATE.start();
requires !_READ_HAS_OCCURRED_$$A && !_WRITE_HAS_OCCURRED_$$A && !_ATOMIC_HAS_OCCURRED_$$A;
requires BV32_SGT(group_size_x, 0bv32);
requires BV32_SGT(num_groups_x, 0bv32);
requires BV32_SGE(group_id_x$1, 0bv32);
requires BV32_SGE(group_id_x$2, 0bv32);
requires BV32_SLT(group_id_x$1, num_groups_x);
requires BV32_SLT(group_id_x$2, num_groups_x);
requires BV32_SGE(local_id_x$1, 0bv32);
requires BV32_SGE(local_id_x$2, 0bv32);
requires BV32_SLT(local_id_x$1, group_size_x);
requires BV32_SLT(local_id_x$2, group_size_x);
requires BV32_SGT(group_size_y, 0bv32);
requires BV32_SGT(num_groups_y, 0bv32);
requires BV32_SGE(group_id_y$1, 0bv32);
requires BV32_SGE(group_id_y$2, 0bv32);
requires BV32_SLT(group_id_y$1, num_groups_y);
requires BV32_SLT(group_id_y$2, num_groups_y);
requires BV32_SGE(local_id_y$1, 0bv32);
requires BV32_SGE(local_id_y$2, 0bv32);
requires BV32_SLT(local_id_y$1, group_size_y);
requires BV32_SLT(local_id_y$2, group_size_y);
requires BV32_SGT(group_size_z, 0bv32);
requires BV32_SGT(num_groups_z, 0bv32);
requires BV32_SGE(group_id_z$1, 0bv32);
requires BV32_SGE(group_id_z$2, 0bv32);
requires BV32_SLT(group_id_z$1, num_groups_z);
requires BV32_SLT(group_id_z$2, num_groups_z);
requires BV32_SGE(local_id_z$1, 0bv32);
requires BV32_SGE(local_id_z$2, 0bv32);
requires BV32_SLT(local_id_z$1, group_size_z);
requires BV32_SLT(local_id_z$2, group_size_z);
requires group_id_x$1 == group_id_x$2 && group_id_y$1 == group_id_y$2 && group_id_z$1 == group_id_z$2 ==> local_id_x$1 != local_id_x$2 || local_id_y$1 != local_id_y$2 || local_id_z$1 != local_id_z$2;
implementation {:source_name "foo"} ULTIMATE.start()
{
$entry:
assert {:sourceloc_num 1} {:thread 1} (if BV32_UREM(BV32_MUL(group_size_x, num_groups_x), 1024bv32) == 0bv32 then 1bv1 else 0bv1) != 0bv1;
assert {:sourceloc_num 2} {:thread 1} (if BV32_MUL(num_groups_x, 1024bv32) == BV32_MUL(group_size_x, num_groups_x) then 1bv1 else 0bv1) != 0bv1;
return;
}
axiom (if group_size_y == 1bv32 then 1bv1 else 0bv1) != 0bv1;
axiom (if group_size_z == 1bv32 then 1bv1 else 0bv1) != 0bv1;
axiom (if num_groups_y == 1bv32 then 1bv1 else 0bv1) != 0bv1;
axiom (if num_groups_z == 1bv32 then 1bv1 else 0bv1) != 0bv1;
axiom (if group_size_x == 1024bv32 then 1bv1 else 0bv1) != 0bv1;
axiom (if BV32_UGT(num_groups_x, 0bv32) then 1bv1 else 0bv1) != 0bv1;
axiom (if global_offset_x == 0bv32 then 1bv1 else 0bv1) != 0bv1;
axiom (if global_offset_y == 0bv32 then 1bv1 else 0bv1) != 0bv1;
axiom (if global_offset_z == 0bv32 then 1bv1 else 0bv1) != 0bv1;
const {:local_id_x} local_id_x$1: bv32;
const {:local_id_x} local_id_x$2: bv32;
const {:local_id_y} local_id_y$1: bv32;
const {:local_id_y} local_id_y$2: bv32;
const {:local_id_z} local_id_z$1: bv32;
const {:local_id_z} local_id_z$2: bv32;
const {:group_id_x} group_id_x$1: bv32;
const {:group_id_x} group_id_x$2: bv32;
const {:group_id_y} group_id_y$1: bv32;
const {:group_id_y} group_id_y$2: bv32;
const {:group_id_z} group_id_z$1: bv32;
const {:group_id_z} group_id_z$2: bv32;
const _WATCHED_VALUE_$$A: bv32;
procedure {:inline 1} _LOG_READ_$$A(_P: bool, _offset: bv32, _value: bv32);
modifies _READ_HAS_OCCURRED_$$A;
implementation {:inline 1} _LOG_READ_$$A(_P: bool, _offset: bv32, _value: bv32)
{
log_access_entry:
_READ_HAS_OCCURRED_$$A := (if _P && group_id_x$1 == group_id_x$2 && group_id_y$1 == group_id_y$2 && group_id_z$1 == group_id_z$2 && _TRACKING && _WATCHED_OFFSET == _offset && _WATCHED_VALUE_$$A == _value then true else _READ_HAS_OCCURRED_$$A);
return;
}
procedure _CHECK_READ_$$A(_P: bool, _offset: bv32, _value: bv32);
requires !(_P && _WRITE_HAS_OCCURRED_$$A && _WATCHED_OFFSET == _offset && _WRITE_READ_BENIGN_FLAG_$$A && group_id_x$1 == group_id_x$2 && group_id_y$1 == group_id_y$2 && group_id_z$1 == group_id_z$2);
requires !(_P && _ATOMIC_HAS_OCCURRED_$$A && _WATCHED_OFFSET == _offset && group_id_x$1 == group_id_x$2 && group_id_y$1 == group_id_y$2 && group_id_z$1 == group_id_z$2);
var _WRITE_READ_BENIGN_FLAG_$$A: bool;
procedure {:inline 1} _LOG_WRITE_$$A(_P: bool, _offset: bv32, _value: bv32, _value_old: bv32);
modifies _WRITE_HAS_OCCURRED_$$A, _WRITE_READ_BENIGN_FLAG_$$A;
implementation {:inline 1} _LOG_WRITE_$$A(_P: bool, _offset: bv32, _value: bv32, _value_old: bv32)
{
log_access_entry:
_WRITE_HAS_OCCURRED_$$A := (if _P && group_id_x$1 == group_id_x$2 && group_id_y$1 == group_id_y$2 && group_id_z$1 == group_id_z$2 && _TRACKING && _WATCHED_OFFSET == _offset && _WATCHED_VALUE_$$A == _value then true else _WRITE_HAS_OCCURRED_$$A);
_WRITE_READ_BENIGN_FLAG_$$A := (if _P && group_id_x$1 == group_id_x$2 && group_id_y$1 == group_id_y$2 && group_id_z$1 == group_id_z$2 && _TRACKING && _WATCHED_OFFSET == _offset && _WATCHED_VALUE_$$A == _value then _value != _value_old else _WRITE_READ_BENIGN_FLAG_$$A);
return;
}
procedure _CHECK_WRITE_$$A(_P: bool, _offset: bv32, _value: bv32);
requires !(_P && _WRITE_HAS_OCCURRED_$$A && _WATCHED_OFFSET == _offset && _WATCHED_VALUE_$$A != _value && group_id_x$1 == group_id_x$2 && group_id_y$1 == group_id_y$2 && group_id_z$1 == group_id_z$2);
requires !(_P && _READ_HAS_OCCURRED_$$A && _WATCHED_OFFSET == _offset && _WATCHED_VALUE_$$A != _value && group_id_x$1 == group_id_x$2 && group_id_y$1 == group_id_y$2 && group_id_z$1 == group_id_z$2);
requires !(_P && _ATOMIC_HAS_OCCURRED_$$A && _WATCHED_OFFSET == _offset && group_id_x$1 == group_id_x$2 && group_id_y$1 == group_id_y$2 && group_id_z$1 == group_id_z$2);
procedure {:inline 1} _LOG_ATOMIC_$$A(_P: bool, _offset: bv32);
modifies _ATOMIC_HAS_OCCURRED_$$A;
implementation {:inline 1} _LOG_ATOMIC_$$A(_P: bool, _offset: bv32)
{
log_access_entry:
_ATOMIC_HAS_OCCURRED_$$A := (if _P && group_id_x$1 == group_id_x$2 && group_id_y$1 == group_id_y$2 && group_id_z$1 == group_id_z$2 && _TRACKING && _WATCHED_OFFSET == _offset then true else _ATOMIC_HAS_OCCURRED_$$A);
return;
}
procedure _CHECK_ATOMIC_$$A(_P: bool, _offset: bv32);
requires !(_P && _WRITE_HAS_OCCURRED_$$A && _WATCHED_OFFSET == _offset && group_id_x$1 == group_id_x$2 && group_id_y$1 == group_id_y$2 && group_id_z$1 == group_id_z$2);
requires !(_P && _READ_HAS_OCCURRED_$$A && _WATCHED_OFFSET == _offset && group_id_x$1 == group_id_x$2 && group_id_y$1 == group_id_y$2 && group_id_z$1 == group_id_z$2);
procedure {:inline 1} _UPDATE_WRITE_READ_BENIGN_FLAG_$$A(_P: bool, _offset: bv32);
modifies _WRITE_READ_BENIGN_FLAG_$$A;
implementation {:inline 1} _UPDATE_WRITE_READ_BENIGN_FLAG_$$A(_P: bool, _offset: bv32)
{
_UPDATE_BENIGN_FLAG:
_WRITE_READ_BENIGN_FLAG_$$A := (if _P && _WRITE_HAS_OCCURRED_$$A && _WATCHED_OFFSET == _offset then false else _WRITE_READ_BENIGN_FLAG_$$A);
return;
}
var _TRACKING: bool;
function {:builtin "bvsgt"} BV32_SGT(bv32, bv32) : bool;
function {:builtin "bvsge"} BV32_SGE(bv32, bv32) : bool;
function {:builtin "bvslt"} BV32_SLT(bv32, bv32) : bool;