Developer Guide and Reference

  • 2021.2
  • 03/26/2021
  • Public Content
Contents

Array

Programming interface

All types and functions in this section are declared in the
oneapi::dal
namespace and be available via inclusion of the
oneapi/dal/array.hpp
header file.
All the
array
class methods can be divided into several groups:
  1. Constructors that are used to create an array from external, mutable or immutable memory.
  2. Constructors and assignment operators that are used to create an array that shares its data with another one.
  3. The group of
    reset()
    methods that are used to re-assign an array to another external memory block.
  4. The group of
    reset()
    methods that are used to re-assign an array to an internally allocated memory block.
  5. The methods that are used to access the data.
  6. Static methods that provide simplified ways to create an array either from external memory or by allocating it within a new object.
template<typename
T
>
class
array
Template Parameters
T
– The type of the memory block elements within the array.
T
can represent any type.
Public Static Methods
static
array<T>
empty
(std::int64_t
count
)
Allocates a new memory block for mutable data, does not initialize it, creates a new array instance by passing a pointer to the memory block. The array owns the memory block (for details, see data ownership requirements).
Parameters
count
– The number of elements of type
Data
to allocate memory for.
Preconditions


count > 0

template<typename
K
>
static
array<T>
full
(std::int64_t
count
, K &&
element
)
Allocates a new memory block for mutable data, fills it with a scalar value, creates a new array instance by passing a pointer to the memory block. The array owns the memory block (for details, see data ownership requirements).
Parameters
  • count
    – The number of elements of type
    T
    to allocate memory for.
  • element
    – The value that is used to fill a memory block.
Preconditions


count > 0
Elements of type T are constructible from the Element type.

static
array<T>
zeros
(std::int64_t
count
)
Allocates a new memory block on mutable data, fills it with zeros, creates a new array instance by passing a pointer to the memory block. The array owns the memory block (for details, see data ownership requirements).
Parameters
count
– The number of elements of type
Data
to allocate memory for.
Preconditions


count > 0

template<typename
Y
>
static
array<T>
wrap
(Y *
data
, std::int64_t
count
)
Creates a new array instance by passing the pointer to externally-allocated memory block for mutable data. It is the responsibility of the calling application to free the memory block as the array does not free it when the reference count is zero.
Parameters
  • data
    – The pointer to externally-allocated memory block.
  • count
    – The number of elements of type
    Data
    in the memory block.
Preconditions


data != nullptr
count > 0

Constructors
array
()
Creates a new instance of the class without memory allocation:
mutable_data
and
data
pointers should be set to
nullptr
,
count
should be zero; the pointer to the ownership structure should be set to
nullptr
.
array
(
const
array<T> &
other
)
Creates a new array instance that shares an ownership with
other
on its memory block.
array
(array<T> &&
other
)
Moves
data
,
mutable_data
pointers,
count
, and pointer to the ownership structure in
other
to the new array instance.
template<typename
Deleter
>
array
(T *
data
, std::int64_t
count
, Deleter &&
deleter
)
Creates a new array instance which owns a memory block of externally-allocated mutable data. The ownership structure is created for a block, the input
deleter
is assigned to it.
Template Parameters
Deleter
– The type of a deleter used to free the
Data
. The deleter provides
void operator()(Data*)
member function.
Parameters
  • data
    – The pointer to externally-allocated memory block.
  • count
    – The number of elements of type
    Data
    in the memory block.
  • deleter
    – The object used to free
    Data
    .
template<typename
ConstDeleter
>
array
(
const
T *
data
, std::int64_t
count
, ConstDeleter &&
deleter
)
Creates a new array instance which owns a memory block of externally-allocated immutable data. The ownership structure is created for a block, the input
deleter
is assigned to it.
Template Parameters
ConstDeleter
– The type of a deleter used to free the
Data
. The deleter implements
void operator()(const Data*)
member function.
Parameters
  • data
    – The pointer to externally-allocated memory block.
  • count
    – The number of elements of type
    Data
    in the
    Data
    .
  • deleter
    – The object used to free
    Data
    .
array
(
const
std::shared_ptr<T> &
data
, std::int64_t
count
)
Creates a new array instance that shares ownership with the user-provided shared pointer.
Parameters
  • data
    – The shared pointer to externally-allocated memory block.
  • count
    – The number of elements of type
    Data
    in the memory block.
array
(
const
std::shared_ptr<
const
T> &
data
, std::int64_t
count
)
Creates a new array instance that shares ownership with the user-provided shared pointer.
Parameters
  • data
    – The shared pointer to externally-allocated memory block.
  • count
    – The number of elements of type
    Data
    in the memory block.
template<typename
Y
, typename
K
>
array
(
const
array<Y> &
ref
, K *
data
, std::int64_t
count
)
An aliasing constructor: creates a new array instance that stores
Data
pointer, assigns the pointer to the ownership structure of
ref
to the new instance. Array returns
Data
pointer as its mutable or immutable block depending on the
Data
type.
Parameters
  • ref
    – The array which shares ownership structure with created one.
  • data
    – Mutable or immutable unmanaged pointer hold by created array.
  • count
    – The number of elements of type
    T
    in the
    Data
    .
Preconditions


std::is_same_v || std::is_same_v

Public Methods
array<T>
operator=
(
const
array<T> &
other
)
Replaces the
data
,
mutable_data
pointers,
count
, and pointer to the ownership structure in the array instance by the values in
other
.
Postconditions


data == other.data
mutable_data == other.mutable_data
count == other.count

array<T>
operator=
(array<T> &&
other
)
Swaps the values of
data
,
mutable_data
pointers,
count
, and pointer to the ownership structure in the array instance and
other
.
T *
get_mutable_data
()
const
The pointer to the memory block holding mutable data.
Preconditions


has_mutable_data() == true, othewise throws domain_error

const
T *
get_data
()
const
noexcept
The pointer to the memory block holding immutable data.
bool
has_mutable_data
()
const
noexcept
Returns whether array contains
mutable_data
or not.
array &
need_mutable_data
()
Returns mutable_data, if array contains it. Otherwise, allocates a memory block for mutable data and fills it with the data stored at
data
. Creates the ownership structure for allocated memory block and stores the pointer.
Postconditions


has_mutable_data() == true

std::int64_t
get_count
()
const
noexcept
The number of elements of type
T
in a memory block.
std::int64_t
get_size
()
const
noexcept
The size of memory block in bytes.
void
reset
()
Resets ownership structure pointer to
nullptr
, sets
count
to zero,
data
and
mutable_data
to
nullptr
.
void
reset
(std::int64_t
count
)
Allocates a new memory block for mutable data, does not initialize it, creates ownership structure for this block, assigns the structure inside the array. The array owns allocated memory block.
Parameters
count
– The number of elements of type
Data
to allocate memory for.
template<typename
Deleter
> void
reset
(T *
data
, std::int64_t
count
, Deleter &&
deleter
)
Creates the ownership structure for memory block of externally-allocated mutable data, assigns input
deleter
object to it, sets
data
and
mutable_data
pointers to this block.
Template Parameters
Deleter
– The type of a deleter used to free the
Data
. The deleter implements
void operator()(Data*)
member function.
Parameters
  • data
    – The mutable memory block pointer to be assigned inside the array.
  • count
    – The number of elements of type
    Data
    into the block.
  • deleter
    – The object used to free
    Data
    .
template<typename
ConstDeleter
> void
reset
(
const
T *
data
, std::int64_t
count
, ConstDeleter &&
deleter
)
Creates the ownership structure for memory block of externally-allocated immutable data, assigns input
deleter
object to it, sets
data
pointer to this block.
Template Parameters
ConstDeleter
– The type of a deleter used to free. The deleter implements
void operator()(const Data*)`
member function.
Parameters
  • data
    – The immutable memory block pointer to be assigned inside the array.
  • count
    – The number of elements of type
    Data
    into the block.
  • deleter
    – The object used to free
    Data
    .
template<typename
Y
> void
reset
(
const
array<Y> &
ref
, T *
data
, std::int64_t
count
)
Initializes
data
and
mutable_data
with data pointer,
count
with input
count
value, initializes the pointer to ownership structure with the one from ref. Array returns
Data
pointer as its mutable block.
Parameters
  • ref
    – The array which is used to share ownership structure with current one.
  • data
    – Mutable unmanaged pointer to be assigned to the array.
  • count
    – The number of elements of type
    T
    in the
    Data
    .
template<typename
Y
> void
reset
(
const
array<Y> &
ref
,
const
T *
data
, std::int64_t
count
)
Initializes
data
with data pointer,
count
with input
count
value, initializes the pointer to ownership structure with the one from ref. Array returns
Data
pointer as its immutable block.
Parameters
  • ref
    – The array which is used to share ownership structure with current one.
  • data
    – Immutable unmanaged pointer to be assigned to the array.
  • count
    – The number of elements of type
    T
    in the
    Data
    .
const
T &
operator[]
(std::int64_t
index
)
const
noexcept
Provides a read-only access to the elements of array. Does not perform boundary checks.

Usage example

The following listing provides a brief introduction to the array API and an example of basic usage scenario:
#include <CL/sycl.hpp> #include <iostream> #include <string> #include "oneapi/dal/array.hpp" using namespace oneapi; void print_property(const std::string& description, const auto& property) { std::cout << description << ": " << property << std::endl; } int main() { sycl::queue queue { sycl::default_selector() }; constexpr std::int64_t data_count = 4; const float data[] = { 1.0f, 2.0f, 3.0f, 4.0f }; // Creating an array from immutable user-defined memory auto arr_data = dal::array<float>::wrap(data, data_count); // Creating an array from internally allocated memory filled by ones auto arr_ones = dal::array<float>::full(queue, data_count, 1.0f); print_property("Is arr_data mutable", arr_data.has_mutable_data()); // false print_property("Is arr_ones mutable", arr_ones.has_mutable_data()); // true // Creating new array from arr_data without data copy - they share ownership information. dal::array<float> arr_mdata = arr_data; print_property("arr_mdata elements count", arr_mdata.get_count()); // equal to data_count print_property("Is arr_mdata mutable", arr_mdata.has_mutable_data()); // false /// Copying data inside arr_mdata to new mutable memory block. /// arr_data still refers to the original data pointer. arr_mdata.need_mutable_data(queue); print_property("Is arr_data mutable", arr_data.has_mutable_data()); // false print_property("Is arr_mdata mutable", arr_mdata.has_mutable_data()); // true queue.submit([&](sycl::handler& cgh){ auto mdata = arr_mdata.get_mutable_data(); auto cones = arr_ones.get_data(); cgh.parallel_for<class array_addition>(sycl::range<1>(data_count), [=](sycl::id<1> idx) { mdata[idx[0]] += cones[idx[0]]; }); }).wait(); std::cout << "arr_mdata values: "; for(std::int64_t i = 0; i < arr_mdata.get_count(); i++) { std::cout << arr_mdata[i] << ", "; } std::cout << std::endl; return 0; }

Product and Performance Information

1

Performance varies by use, configuration and other factors. Learn more at www.Intel.com/PerformanceIndex.