Labels¶
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class Labels¶
A set of labels used to carry metadata associated with a tensor map.
This is similar to an array of named tuples, but stored as a 2D array of shape
(count, size)
, with a set of names associated with the columns of this array (often called dimensions). Each row/entry in this array is unique, and they are often (but not always) sorted in lexicographic order.Public Functions
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inline Labels(const std::vector<std::string> &names, const std::vector<std::initializer_list<int32_t>> &values)¶
Create a new set of Labels from the given
names
andvalues
.Each entry in the values must contain
names.size()
elements.auto labels = Labels({"first", "second"}, { {0, 1}, {1, 4}, {2, 1}, {2, 3}, });
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inline explicit Labels(const std::vector<std::string> &names)¶
Create an empty set of Labels with the given names.
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inline Labels(const std::vector<std::string> &names, const int32_t *values, size_t count)¶
Create labels with the given
names
andvalues
.values
must be an array withcount x names.size()
elements.
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inline const std::vector<const char*> &names() const¶
Get the names of the dimensions used in these
Labels
.
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inline size_t count() const¶
Get the number of entries in this set of Labels.
This is the same as
shape()[0]
for the corresponding values array
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inline size_t size() const¶
Get the number of dimensions in this set of Labels.
This is the same as
shape()[1]
for the corresponding values array
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inline mts_labels_t as_mts_labels_t() const¶
Convert from this set of Labels to the C
mts_labels_t
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inline void *user_data() &¶
Get the user data pointer registered with these
Labels
.If no user data have been registered, this function will return
nullptr
.
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inline void set_user_data(LabelsUserData user_data)¶
Register some user data pointer with these
Labels
.Any existing user data will be released (by calling the provided
delete
function) before overwriting with the new data.
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inline int64_t position(std::initializer_list<int32_t> entry) const¶
Get the position of the
entry
in this set of Labels, or -1 if the entry is not part of these Labels.
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template<size_t N>
inline int64_t position(const std::array<int32_t, N> &entry) const¶ Variant of
Labels::position
taking a fixed-size array as input.
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inline int64_t position(const std::vector<int32_t> &entry) const¶
Variant of
Labels::position
taking a vector as input.
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inline int64_t position(const int32_t *entry, size_t length) const¶
Variant of
Labels::position
taking a pointer and length as input.
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inline Labels set_union(const Labels &other, int64_t *first_mapping = nullptr, size_t first_mapping_count = 0, int64_t *second_mapping = nullptr, size_t second_mapping_count = 0) const¶
Take the union of these
Labels
withother
.If requested, this function can also give the positions in the union where each entry of the input
Labels
ended up.No user data pointer is registered with the output, even if the inputs have some.
- Parameters:
other – the
Labels
we want to take the union withfirst_mapping – if you want the mapping from the positions of entries in
this
to the positions in the union, this should be a pointer to an array containingthis->count()
elements, to be filled by this function. Otherwise it should be anullptr
.first_mapping_count – number of elements in
first_mapping
second_mapping – if you want the mapping from the positions of entries in
other
to the positions in the union, this should be a pointer to an array containingother.count()
elements, to be filled by this function. Otherwise it should be anullptr
.second_mapping_count – number of elements in
second_mapping
- Returns:
The status code of this operation. If the status is not
MTS_SUCCESS
, you can usemts_last_error()
to get the full error message.
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inline Labels set_union(const Labels &other, std::vector<int64_t> &first_mapping, std::vector<int64_t> &second_mapping) const¶
Take the union of these
Labels
withother
.If requested, this function can also give the positions in the union where each entry of the input
Labels
ended up.No user data pointer is registered with the output, even if the inputs have some.
- Parameters:
other – the
Labels
we want to take the union withfirst_mapping – if you want the mapping from the positions of entries in
this
to the positions in the union, this should be a vector containingthis->count()
elements, to be filled by this function. Otherwise it should be an empty vector.second_mapping – if you want the mapping from the positions of entries in
other
to the positions in the union, this should be a vector containingother.count()
elements, to be filled by this function. Otherwise it should be an empty vector.
- Returns:
The status code of this operation. If the status is not
MTS_SUCCESS
, you can usemts_last_error()
to get the full error message.
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inline Labels set_intersection(const Labels &other, int64_t *first_mapping = nullptr, size_t first_mapping_count = 0, int64_t *second_mapping = nullptr, size_t second_mapping_count = 0) const¶
Take the intersection of these
Labels
withother
.If requested, this function can also give the positions in the intersection where each entry of the input
Labels
ended up.No user data pointer is registered with the output, even if the inputs have some.
- Parameters:
other – the
Labels
we want to take the intersection withfirst_mapping – if you want the mapping from the positions of entries in
this
to the positions in the intersection, this should be a pointer to an array containingthis->count()
elements, to be filled by this function. Otherwise it should be anullptr
. If an entry inthis
is not used in the intersection, the mapping will be set to -1.first_mapping_count – number of elements in
first_mapping
second_mapping – if you want the mapping from the positions of entries in
other
to the positions in the intersection, this should be a pointer to an array containingother.count()
elements, to be filled by this function. Otherwise it should be anullptr
. If an entry inother
is not used in the intersection, the mapping will be set to -1.second_mapping_count – number of elements in
second_mapping
- Returns:
The status code of this operation. If the status is not
MTS_SUCCESS
, you can usemts_last_error()
to get the full error message.
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inline Labels set_intersection(const Labels &other, std::vector<int64_t> &first_mapping, std::vector<int64_t> &second_mapping) const¶
Take the intersection of this
Labels
withother
.If requested, this function can also give the positions in the intersection where each entry of the input
Labels
ended up.No user data pointer is registered with the output, even if the inputs have some.
- Parameters:
other – the
Labels
we want to take the intersection withfirst_mapping – if you want the mapping from the positions of entries in
this
to the positions in the intersection, this should be a vector containingthis->count()
elements, to be filled by this function. Otherwise it should be an empty vector. If an entry inthis
is not used in the intersection, the mapping will be set to -1.second_mapping – if you want the mapping from the positions of entries in
other
to the positions in the intersection, this should be a vector containingother.count()
elements, to be filled by this function. Otherwise it should be an empty vector. If an entry inother
is not used in the intersection, the mapping will be set to -1.
- Returns:
The status code of this operation. If the status is not
MTS_SUCCESS
, you can usemts_last_error()
to get the full error message.
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inline void save(const std::string &path) const¶
Save
Labels
to the given path.This is identical to
metatensor::io::save()
, and provided as a convenience API.
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inline std::vector<uint8_t> save_buffer() const¶
Save
Labels
to an in-memory buffer.This is identical to
metatensor::io::save_buffer()
, and provided as a convenience API.
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template<typename Buffer>
inline Buffer save_buffer() const¶ Save
Labels
to an in-memory buffer.This is identical to
metatensor::io::save_buffer()
, and provided as a convenience API.
Public Static Functions
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static inline Labels load(const std::string &path)¶
Load previously saved
Labels
from the given path.This is identical to
metatensor::io::load_labels()
, and provided as a convenience API.
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static inline Labels load_buffer(const uint8_t *buffer, size_t buffer_count)¶
Load previously saved
Labels
from a in-memory buffer.This is identical to
metatensor::io::load_labels_buffer()
, and provided as a convenience API.
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template<typename Buffer>
static inline Labels load_buffer(const Buffer &buffer)¶ Load previously saved
Labels
from a in-memory buffer.This is identical to
metatensor::io::load_labels_buffer()
, and provided as a convenience API.
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inline Labels(const std::vector<std::string> &names, const std::vector<std::initializer_list<int32_t>> &values)¶
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class LabelsUserData¶
It is possible to store some user-provided data inside
Labels
, and access it later. This class is used to take ownership of the data and corresponding delete function before giving the data to metatensor.User data inside
Labels
is an advanced functionality, that most users should not need to interact with.Public Functions
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inline LabelsUserData(void *data, void (*deleter)(void*))¶
Create
LabelsUserData
containing the givendata
.deleter
will be called when the data is dropped, and should free the corresponding memory.
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LabelsUserData(const LabelsUserData &other) = delete¶
LabelsUserData is not copy-constructible.
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LabelsUserData &operator=(const LabelsUserData &other) = delete¶
LabelsUserData can not be copy-assigned.
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inline LabelsUserData(LabelsUserData &&other) noexcept¶
LabelsUserData is move-constructible.
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inline LabelsUserData &operator=(LabelsUserData &&other) noexcept¶
LabelsUserData be move-assigned.
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inline LabelsUserData(void *data, void (*deleter)(void*))¶