pyuff_ustb.objects.Pulse

pyuff_ustb.objects.Pulse#

class pyuff_ustb.objects.Pulse(_reader: Reader | str | None = None, **kwargs)[source]#

Bases: Uff

Uff class for a pulse definition.

Original authors:

Alfonso Rodriguez-Molares <alfonso.r.molares@ntnu.no>

__init__(_reader: Reader | str | None = None, **kwargs)#

Methods

__init__([_reader])

copy()

Return a (deep) copy of the Uff object.

read(name)

Read an Uff object from the file.

write(filepath, location[, overwrite, ...])

Write the Uff to a file.

Attributes

author

Contact of the authors

center_frequency

Center frequency [Hz]

fractional_bandwidth

Probe fractional bandwidth [unitless]

info

Other information

name

Name of the dataset

phase

Initial phase [rad]

reference

Reference to the publication where it was used/acquired

version

Version of the dataset

waveform

Transmitted waveform (for example used for match filtering)
property center_frequency: float#

Center frequency [Hz]

property fractional_bandwidth: float#

Probe fractional bandwidth [unitless]

property phase: float#

Initial phase [rad]

property author: str | None#

Contact of the authors

copy() Uff#

Return a (deep) copy of the Uff object.

In addition to the _reader, all compulsory and optional fields are copied (deeply) iff they are loaded/cached. This means that if a field has not been read from the file, it will not be copied. This is to avoid unintended eager loading of data.

See Uff.__deepcopy__() for implementation details.

Returns:

A deep copy of this object.

Return type:

Uff

property info: str | None#

Other information

property name: str | None#

Name of the dataset

read(name: str) Uff#

Read an Uff object from the file. A Reader must be provided in order to read.

>> uff = Uff(“/path/to/some/file.uff”) >> scan = uff.read(“scan”)

property reference: str | None#

Reference to the publication where it was used/acquired

property version: str | None#

Version of the dataset

property waveform: ndarray#

Transmitted waveform (for example used for match filtering)

write(filepath: str, location: str | Tuple[str, ...] | List[str], overwrite: bool = False, ignore_missing_compulsory_fields: bool = False)#

Write the Uff to a file.

Parameters:

  • filepath (Union[str, h5py.File]) – The filepath (or h5py.File) to write to.

  • location (Union[str, Tuple[str, ...], List[str]]) – The location in the h5 file to write to. Can be a tuple/list of strings representing a path into the h5 file, or a string with the path separated by slashes.

  • overwrite (bool) – Whether to overwrite the location if it already exists. If the location already exists and overwrite=False, a ValueError is raised. overwrite=False by default.

  • ignore_missing_compulsory_fields (bool) – Whether to ignore missing compulsory fields. If a compulsory field is not set then usually a ValueError is raised. Setting ignore_missing_compulsory_fields=True will ignore this error and write the object anyway. ignore_missing_compulsory_fields=False by default.

Examples

We can write an object to a file like this:

>>> import pyuff_ustb as pyuff
>>> point = pyuff.Point(distance=0.0, azimuth=0.0, elevation=0.0)
>>> point.write("my_point.uff", "point")

If we try to write an object to the same location, we get an error:

>>> point.write("my_point.uff", "point")
Traceback (most recent call last):
    ...
ValueError: Location 'point' already exists in the file 'my_point.uff'. Use overwrite=True to overwrite it.

We can choose to overwrite the location by passing overwrite=True:

>>> point.write("my_point.uff", "point", overwrite=True)

We can also write the object to another arbitrary location if we want:

>>> point.write("my_point.uff", "sub_directory/point")

Compulsory fields may not be None when writing an object to an UFF file (unless ignore_missing_compulsory_fields=True).

>>> point.distance = None
>>> point.write("my_point.uff", "point2")
Traceback (most recent call last):
    ...
ValueError: The compulsory field 'distance' is set to None. Compulsory fields
may not be None when writing an object to an UFF file. To ignore this error and write
the object anyway, set ignore_missing_compulsory_fields=True.

Note that even though the previous step failed, the file was still partially written to (we don’t rollback changes when writing fails), so we will have to pass overwrite=True to write the object again.

>>> point.write(
...     "my_point.uff",
...     "point2",
...     overwrite=True,
...     ignore_missing_compulsory_fields=True,
... )

After running these steps, the file will contain the following fields:

>>> uff = pyuff.Uff("my_point.uff")
>>> uff
Uff(point=Point(<...>), point2=Point(<...>), sub_directory=<...>)