Miscellaneous¶
Version number¶
-
const char *mts_version(void)¶
Get the runtime version of the metatensor library as a string.
This version follows the
<major>.<minor>.<patch>[-<dev>]
format.
-
METATENSOR_VERSION¶
Macro containing the compile-time version of metatensor, as a string
-
METATENSOR_VERSION_MAJOR¶
Macro containing the compile-time major version number of metatensor, as an integer
-
METATENSOR_VERSION_MINOR¶
Macro containing the compile-time minor version number of metatensor, as an integer
-
METATENSOR_VERSION_PATCH¶
Macro containing the compile-time patch version number of metatensor, as an integer
Error handling¶
-
const char *mts_last_error(void)¶
Get the last error message that was created on the current thread.
- Returns:
the last error message, as a NULL-terminated string
-
void mts_disable_panic_printing(void)¶
Disable printing of the message to stderr when some Rust code reach a panic.
All panics from Rust code are caught anyway and translated to an error status code, and the message is stored and accessible through
mts_last_error
. To print the error message and Rust backtrace anyway, users can set theRUST_BACKTRACE
environment variable to 1.
-
typedef int32_t mts_status_t¶
Status type returned by all functions in the C API.
The value 0 (
MTS_SUCCESS
) is used to indicate successful operations, positive values are used by this library to indicate errors, while negative values are reserved for users of this library to indicate their own errors in callbacks.
-
MTS_SUCCESS¶
Status code used when a function succeeded
-
MTS_INVALID_PARAMETER_ERROR¶
Status code used when a function got an invalid parameter
-
MTS_BUFFER_SIZE_ERROR¶
Status code used when a memory buffer is too small to fit the requested data
-
MTS_INTERNAL_ERROR¶
Status code used when there was an internal error, i.e. there is a bug inside metatensor itself
Serialization¶
Tensors¶
mts_tensormap_save()
: serialize and save amts_tensormap_t
to a filemts_tensormap_load()
: load serializedmts_tensormap_t
from a filemts_tensormap_save_buffer()
: serialize and save amts_tensormap_t
to a in-memory buffermts_tensormap_load_buffer()
: load serializedmts_tensormap_t
from a in-memory buffer
-
struct mts_tensormap_t *mts_tensormap_load(const char *path, mts_create_array_callback_t create_array)¶
Load a tensor map from the file at the given path.
Arrays for the values and gradient data will be created with the given
create_array
callback, and filled by this function with the corresponding data.The memory allocated by this function should be released using
mts_tensormap_free
.TensorMap
are serialized using numpy’s.npz
format, i.e. a ZIP file without compression (storage method is STORED), where each file is stored as a.npy
array. Both the ZIP and NPY format are well documented:ZIP: https://pkware.cachefly.net/webdocs/casestudies/APPNOTE.TXT
NPY: https://numpy.org/doc/stable/reference/generated/numpy.lib.format.html
We add other restriction on top of these formats when saving/loading data. First,
Labels
instances are saved as structured array, see thelabels
module for more information. Only 32-bit integers are supported for Labels, and only 64-bit floats are supported for data (values and gradients).Second, the path of the files in the archive also carry meaning. The keys of the
TensorMap
are stored in/keys.npy
, and then different blocks are stored as/ blocks / <block_id> / values / samples.npy / values / components / 0.npy / <...>.npy / <n_components>.npy / values / properties.npy / values / data.npy # optional sections for gradients, one by parameter / gradients / <parameter> / samples.npy / components / 0.npy / <...>.npy / <n_components>.npy / data.npy
- Parameters:
path – path to the file as a NULL-terminated UTF-8 string
create_array – callback function that will be used to create data arrays inside each block
- Returns:
A pointer to the newly allocated tensor map, or a
NULL
pointer in case of error. In case of error, you can usemts_last_error()
to get the error message.
-
mts_status_t mts_tensormap_save(const char *path, const struct mts_tensormap_t *tensor)¶
Save a tensor map to the file at the given path.
If the file already exists, it is overwritten.
- Parameters:
path – path to the file as a NULL-terminated UTF-8 string
tensor – tensor map to save to the file
- 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.
-
struct mts_tensormap_t *mts_tensormap_load_buffer(const uint8_t *buffer, uintptr_t buffer_count, mts_create_array_callback_t create_array)¶
Load a tensor map from the given in-memory buffer.
Arrays for the values and gradient data will be created with the given
create_array
callback, and filled by this function with the corresponding data.The memory allocated by this function should be released using
mts_tensormap_free
.- Parameters:
buffer – buffer containing a previously serialized
mts_tensormap_t
buffer_count – number of elements in the buffer
create_array – callback function that will be used to create data arrays inside each block
- Returns:
A pointer to the newly allocated tensor map, or a
NULL
pointer in case of error. In case of error, you can usemts_last_error()
to get the error message.
-
mts_status_t mts_tensormap_save_buffer(uint8_t **buffer, uintptr_t *buffer_count, void *realloc_user_data, mts_realloc_buffer_t realloc, const struct mts_tensormap_t *tensor)¶
Save a tensor map to an in-memory buffer.
On input,
*buffer
should contain the address of a starting buffer (which can be NULL) and*buffer_count
should contain the size of the allocation.On output,
*buffer
will contain the serialized data, and*buffer_count
the total number of written bytes (which might be less than the allocation size).Users of this function are responsible for freeing the
*buffer
when they are done with it, using the function matching therealloc
callback.- Parameters:
buffer – pointer to the buffer the tensor will be stored to, which can change due to reallocations.
buffer_count – pointer to the buffer size on input, number of written bytes on output
realloc_user_data – custom data for the
realloc
callback. This will be passed as the first argument torealloc
as-is.realloc – function that allows to grow the buffer allocation
tensor – tensor map that will saved to the buffer
- 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.
-
typedef mts_status_t (*mts_create_array_callback_t)(const uintptr_t *shape, uintptr_t shape_count, struct mts_array_t *array)¶
Function pointer to create a new
mts_array_t
when de-serializing tensor maps.This function gets the
shape
of the array (theshape
containsshape_count
elements) and should fillarray
with a new validmts_array_t
or return non-zeromts_status_t
.The newly created array should contains 64-bit floating points (
double
) data, and live on CPU, since metatensor will usemts_array_t.data
to get the data pointer and write to it.
-
typedef uint8_t *(*mts_realloc_buffer_t)(void *user_data, uint8_t *ptr, uintptr_t new_size)¶
Function pointer to grow in-memory buffers for
mts_tensormap_save_buffer
andmts_labels_save_buffer
.This function takes an existing pointer in
ptr
and a new length innew_size
, and grow the allocation. If the pointer isNULL
, it should create a new allocation. If it is unable to allocate memory, it should return aNULL
pointer. This follows the API of the standard C functionrealloc
, with an additional parameteruser_data
that can be used to hold custom data.
Labels¶
mts_labels_save()
: serialize and save amts_labels_t
to a filemts_labels_load()
: load serializedmts_labels_t
from a filemts_labels_save_buffer()
: serialize and save amts_labels_t
to a in-memory buffermts_labels_load_buffer()
: load serializedmts_labels_t
from a in-memory buffermts_tensormap_load()
: create the Rust-side data for the labels
-
mts_status_t mts_labels_load(const char *path, struct mts_labels_t *labels)¶
Load labels from the file at the given path.
Labels are stored using numpy’s NPY format, so the file will typically use the
.npy
extension.This function allocates memory which must be released
mts_labels_free
when you don’t need it anymore.- Parameters:
path – path to the file as a NULL-terminated UTF-8 string
labels – pointer to empty Labels
- 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.
-
mts_status_t mts_labels_save(const char *path, struct mts_labels_t labels)¶
Save labels to the file at the given path.
If the file already exists, it is overwritten.
- Parameters:
path – path to the file as a NULL-terminated UTF-8 string
labels – Labels to save to the file
- 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.
-
mts_status_t mts_labels_load_buffer(const uint8_t *buffer, uintptr_t buffer_count, struct mts_labels_t *labels)¶
Load labels from the given in-memory buffer.
This function allocates memory which must be released
mts_labels_free
when you don’t need it anymore.- Parameters:
buffer – buffer containing a previously serialized
mts_labels_t
buffer_count – number of elements in the buffer
labels – pointer to empty Labels
- 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.
-
mts_status_t mts_labels_save_buffer(uint8_t **buffer, uintptr_t *buffer_count, void *realloc_user_data, mts_realloc_buffer_t realloc, struct mts_labels_t labels)¶
Save labels to an in-memory buffer.
On input,
*buffer
should contain the address of a starting buffer (which can be NULL) and*buffer_count
should contain the size of the allocation (0 if*buffer
is NULL).On output,
*buffer
will contain the serialized data, and*buffer_count
the total number of written bytes (which might be less than the allocation size).Users of this function are responsible for freeing the
*buffer
when they are done with it, using the function matching therealloc
callback.- Parameters:
buffer – pointer to the buffer the tensor will be stored to, which can change due to reallocations.
buffer_count – pointer to the buffer size on input, number of written bytes on output
realloc_user_data – custom data for the
realloc
callback. This will be passed as the first argument torealloc
as-is.realloc – function that allows to grow the buffer allocation
labels – Labels that will saved to the buffer
- 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.