proc_ops

Classes:

Name	Description
AddKnownDatasetStats
Binarize	'output = tensor > threshold'.
Clip
CustomProcessing	Execute a user-supplied custom processing callable.
EnsureDtype
FixedZeroMeanUnitVariance	normalize to zero mean, unit variance with precomputed values.
ScaleLinear
ScaleMeanVariance
ScaleRange
Sigmoid	1 / (1 + e^(-input)).
Softmax	Softmax activation function.
StardistPostprocessing2D
StardistPostprocessing3D
UpdateStats	Calculates sample and/or dataset measures
ZeroMeanUnitVariance	normalize to zero mean, unit variance.

Functions:

Name	Description
get_proc

Attributes:

Name	Type	Description
ProcDescr
Processing

ProcDescr module-attribute

ProcDescr = Union[v0_4.PreprocessingDescr, v0_4.PostprocessingDescr, v0_5.PreprocessingDescr, v0_5.PostprocessingDescr]

Used by:

• API Reference  proc_ops  get_proc

Processing module-attribute

Processing = Union[AddKnownDatasetStats, Binarize, Clip, CellposeFlowDynamics, CustomProcessing, EnsureDtype, FixedZeroMeanUnitVariance, ScaleLinear, ScaleMeanVariance, ScaleRange, Sigmoid, StardistPostprocessing2D, StardistPostprocessing3D, Softmax, UpdateStats, ZeroMeanUnitVariance]

Returned by:

• API Reference  proc_ops  get_proc

Used by:

• API Reference  core  PredictionPipeline

AddKnownDatasetStats dataclass

AddKnownDatasetStats(dataset_stats: Mapping[Measure, MeasureValue])

Bases: BlockwiseOperator

              flowchart TD
              bioimageio.core.proc_ops.AddKnownDatasetStats[AddKnownDatasetStats]
              bioimageio.core._op_base.BlockwiseOperator[BlockwiseOperator]
              bioimageio.core._op_base.Operator[Operator]

                              bioimageio.core._op_base.BlockwiseOperator --> bioimageio.core.proc_ops.AddKnownDatasetStats
                                bioimageio.core._op_base.Operator --> bioimageio.core._op_base.BlockwiseOperator
                



              click bioimageio.core.proc_ops.AddKnownDatasetStats href "" "bioimageio.core.proc_ops.AddKnownDatasetStats"
              click bioimageio.core._op_base.BlockwiseOperator href "" "bioimageio.core._op_base.BlockwiseOperator"
              click bioimageio.core._op_base.Operator href "" "bioimageio.core._op_base.Operator"
            

Used by:

• API Reference  proc_ops  Processing

Methods:

Name	Description
__call__
__post_init__

Attributes:

Name	Type	Description
dataset_stats	Mapping[Measure, MeasureValue]
required_measures	Collection[Measure]

dataset_stats instance-attribute

dataset_stats: Mapping[Measure, MeasureValue]

required_measures property

required_measures: Collection[Measure]

__call__

__call__(sample: Union[Sample, SampleBlock]) -> None

Source code in src/bioimageio/core/proc_ops.py

def __call__(self, sample: Union[Sample, SampleBlock]) -> None:
    sample.stat.update(self.dataset_stats)

__post_init__

__post_init__()

Source code in src/bioimageio/core/proc_ops.py

def __post_init__(self):
    # keep only dataset measures
    self.dataset_stats = {
        k: v for k, v in self.dataset_stats.items() if k.scope == "dataset"
    }

Binarize dataclass

Binarize(input: MemberId, output: MemberId, threshold: Union[float, Sequence[float]], axis: Optional[AxisId] = None)

Bases: SimpleOperator

              flowchart TD
              bioimageio.core.proc_ops.Binarize[Binarize]
              bioimageio.core._op_base.SimpleOperator[SimpleOperator]
              bioimageio.core._op_base.BlockwiseOperator[BlockwiseOperator]
              bioimageio.core._op_base.Operator[Operator]

                              bioimageio.core._op_base.SimpleOperator --> bioimageio.core.proc_ops.Binarize
                                bioimageio.core._op_base.BlockwiseOperator --> bioimageio.core._op_base.SimpleOperator
                                bioimageio.core._op_base.Operator --> bioimageio.core._op_base.BlockwiseOperator
                




              click bioimageio.core.proc_ops.Binarize href "" "bioimageio.core.proc_ops.Binarize"
              click bioimageio.core._op_base.SimpleOperator href "" "bioimageio.core._op_base.SimpleOperator"
              click bioimageio.core._op_base.BlockwiseOperator href "" "bioimageio.core._op_base.BlockwiseOperator"
              click bioimageio.core._op_base.Operator href "" "bioimageio.core._op_base.Operator"
            

'output = tensor > threshold'.

Used by:

• API Reference  proc_ops  Processing

Methods:

Name	Description
__call__
from_proc_descr
get_output_shape

Attributes:

Name	Type	Description
axis	Optional[AxisId]
input	MemberId
output	MemberId
required_measures	Collection[Measure]
threshold	Union[float, Sequence[float]]

axis class-attribute instance-attribute

axis: Optional[AxisId] = None

input instance-attribute

input: MemberId

output instance-attribute

output: MemberId

required_measures property

required_measures: Collection[Measure]

threshold instance-attribute

threshold: Union[float, Sequence[float]]

__call__

__call__(sample: Union[Sample, SampleBlock]) -> None

Source code in src/bioimageio/core/_op_base.py

def __call__(self, sample: Union[Sample, SampleBlock]) -> None:
    if self.input not in sample.members:
        return  # TODO: raise?

    input_tensor = sample.members[self.input]
    output_tensor = self._apply(input_tensor, sample.stat)

    if self.output in sample.members:
        assert (
            sample.members[self.output].tagged_shape == output_tensor.tagged_shape
        )

    if isinstance(sample, Sample):
        sample.members[self.output] = output_tensor
    elif isinstance(sample, SampleBlock):
        b = sample.blocks[self.input]
        sample.blocks[self.output] = Block(
            sample_shape=self.get_output_shape(sample.sample_shape[self.input]),
            data=output_tensor,
            inner_slice=b.inner_slice,
            halo=b.halo,
            block_index=b.block_index,
            blocks_in_sample=b.blocks_in_sample,
        )
    else:
        assert_never(sample)

from_proc_descr classmethod

from_proc_descr(descr: Union[v0_4.BinarizeDescr, v0_5.BinarizeDescr], member_id: MemberId) -> Self

Source code in src/bioimageio/core/proc_ops.py

@classmethod
def from_proc_descr(
    cls, descr: Union[v0_4.BinarizeDescr, v0_5.BinarizeDescr], member_id: MemberId
) -> Self:
    if isinstance(descr.kwargs, (v0_4.BinarizeKwargs, v0_5.BinarizeKwargs)):
        return cls(
            input=member_id, output=member_id, threshold=descr.kwargs.threshold
        )
    elif isinstance(descr.kwargs, v0_5.BinarizeAlongAxisKwargs):
        return cls(
            input=member_id,
            output=member_id,
            threshold=descr.kwargs.threshold,
            axis=descr.kwargs.axis,
        )
    else:
        assert_never(descr.kwargs)

get_output_shape

get_output_shape(input_shape: Mapping[AxisId, int]) -> Mapping[AxisId, int]

Source code in src/bioimageio/core/proc_ops.py

def get_output_shape(
    self, input_shape: Mapping[AxisId, int]
) -> Mapping[AxisId, int]:
    return input_shape

Clip dataclass

Clip(input: MemberId, output: MemberId, min: Optional[Union[float, SampleQuantile, DatasetQuantile]] = None, max: Optional[Union[float, SampleQuantile, DatasetQuantile]] = None)

Bases: SimpleOperator

              flowchart TD
              bioimageio.core.proc_ops.Clip[Clip]
              bioimageio.core._op_base.SimpleOperator[SimpleOperator]
              bioimageio.core._op_base.BlockwiseOperator[BlockwiseOperator]
              bioimageio.core._op_base.Operator[Operator]

                              bioimageio.core._op_base.SimpleOperator --> bioimageio.core.proc_ops.Clip
                                bioimageio.core._op_base.BlockwiseOperator --> bioimageio.core._op_base.SimpleOperator
                                bioimageio.core._op_base.Operator --> bioimageio.core._op_base.BlockwiseOperator
                




              click bioimageio.core.proc_ops.Clip href "" "bioimageio.core.proc_ops.Clip"
              click bioimageio.core._op_base.SimpleOperator href "" "bioimageio.core._op_base.SimpleOperator"
              click bioimageio.core._op_base.BlockwiseOperator href "" "bioimageio.core._op_base.BlockwiseOperator"
              click bioimageio.core._op_base.Operator href "" "bioimageio.core._op_base.Operator"
            

Used by:

• API Reference  proc_ops  Processing

Methods:

Name	Description
__call__
__post_init__
from_proc_descr
get_output_shape

Attributes:

Name	Type	Description
input	MemberId
max	Optional[Union[float, SampleQuantile, DatasetQuantile]]	maximum value for clipping
min	Optional[Union[float, SampleQuantile, DatasetQuantile]]	minimum value for clipping
output	MemberId
required_measures

input instance-attribute

input: MemberId

max class-attribute instance-attribute

max: Optional[Union[float, SampleQuantile, DatasetQuantile]] = None

maximum value for clipping

min class-attribute instance-attribute

min: Optional[Union[float, SampleQuantile, DatasetQuantile]] = None

minimum value for clipping

output instance-attribute

output: MemberId

required_measures property

required_measures

__call__

__call__(sample: Union[Sample, SampleBlock]) -> None

Source code in src/bioimageio/core/_op_base.py

def __call__(self, sample: Union[Sample, SampleBlock]) -> None:
    if self.input not in sample.members:
        return  # TODO: raise?

    input_tensor = sample.members[self.input]
    output_tensor = self._apply(input_tensor, sample.stat)

    if self.output in sample.members:
        assert (
            sample.members[self.output].tagged_shape == output_tensor.tagged_shape
        )

    if isinstance(sample, Sample):
        sample.members[self.output] = output_tensor
    elif isinstance(sample, SampleBlock):
        b = sample.blocks[self.input]
        sample.blocks[self.output] = Block(
            sample_shape=self.get_output_shape(sample.sample_shape[self.input]),
            data=output_tensor,
            inner_slice=b.inner_slice,
            halo=b.halo,
            block_index=b.block_index,
            blocks_in_sample=b.blocks_in_sample,
        )
    else:
        assert_never(sample)

__post_init__

__post_init__()

Source code in src/bioimageio/core/proc_ops.py

def __post_init__(self):
    if self.min is None and self.max is None:
        raise ValueError("missing min or max value")

    if (
        isinstance(self.min, float)
        and isinstance(self.max, float)
        and self.min >= self.max
    ):
        raise ValueError(f"expected min < max, but {self.min} >= {self.max}")

    if isinstance(self.min, (SampleQuantile, DatasetQuantile)) and isinstance(
        self.max, (SampleQuantile, DatasetQuantile)
    ):
        if self.min.axes != self.max.axes:
            raise NotImplementedError(
                f"expected min and max quantiles with same axes, but got {self.min.axes} and {self.max.axes}"
            )
        if self.min.q >= self.max.q:
            raise ValueError(
                f"expected min quantile < max quantile, but {self.min.q} >= {self.max.q}"
            )

from_proc_descr classmethod

from_proc_descr(descr: Union[v0_4.ClipDescr, v0_5.ClipDescr], member_id: MemberId) -> Self

Source code in src/bioimageio/core/proc_ops.py

@classmethod
def from_proc_descr(
    cls, descr: Union[v0_4.ClipDescr, v0_5.ClipDescr], member_id: MemberId
) -> Self:
    if isinstance(descr, v0_5.ClipDescr):
        dataset_mode, axes = _get_axes(descr.kwargs)
        if dataset_mode:
            Quantile = DatasetQuantile
        else:
            Quantile = partial(SampleQuantile, method="inverted_cdf")

        if descr.kwargs.min is not None:
            min_arg = descr.kwargs.min
        elif descr.kwargs.min_percentile is not None:
            min_arg = Quantile(
                q=descr.kwargs.min_percentile / 100,
                axes=axes,
                member_id=member_id,
            )
        else:
            min_arg = None

        if descr.kwargs.max is not None:
            max_arg = descr.kwargs.max
        elif descr.kwargs.max_percentile is not None:
            max_arg = Quantile(
                q=descr.kwargs.max_percentile / 100,
                axes=axes,
                member_id=member_id,
            )
        else:
            max_arg = None

    elif isinstance(descr, v0_4.ClipDescr):
        min_arg = descr.kwargs.min
        max_arg = descr.kwargs.max
    else:
        assert_never(descr)

    return cls(
        input=member_id,
        output=member_id,
        min=min_arg,
        max=max_arg,
    )

get_output_shape

get_output_shape(input_shape: Mapping[AxisId, int]) -> Mapping[AxisId, int]

Source code in src/bioimageio/core/proc_ops.py

def get_output_shape(
    self, input_shape: Mapping[AxisId, int]
) -> Mapping[AxisId, int]:
    return input_shape

CustomProcessing dataclass

CustomProcessing(input: MemberId, output: MemberId, custom_factory: Callable[..., Callable[[NDArray[Any]], NDArray[Any]]], kwargs: Mapping[str, Any])

Bases: SimpleOperator

              flowchart TD
              bioimageio.core.proc_ops.CustomProcessing[CustomProcessing]
              bioimageio.core._op_base.SimpleOperator[SimpleOperator]
              bioimageio.core._op_base.BlockwiseOperator[BlockwiseOperator]
              bioimageio.core._op_base.Operator[Operator]

                              bioimageio.core._op_base.SimpleOperator --> bioimageio.core.proc_ops.CustomProcessing
                                bioimageio.core._op_base.BlockwiseOperator --> bioimageio.core._op_base.SimpleOperator
                                bioimageio.core._op_base.Operator --> bioimageio.core._op_base.BlockwiseOperator
                




              click bioimageio.core.proc_ops.CustomProcessing href "" "bioimageio.core.proc_ops.CustomProcessing"
              click bioimageio.core._op_base.SimpleOperator href "" "bioimageio.core._op_base.SimpleOperator"
              click bioimageio.core._op_base.BlockwiseOperator href "" "bioimageio.core._op_base.BlockwiseOperator"
              click bioimageio.core._op_base.Operator href "" "bioimageio.core._op_base.Operator"
            

Execute a user-supplied custom processing callable.

Two styles are supported — callable class and factory function::

# Callable class style
class my_factory:
    def __init__(self, threshold=0.5):
        self.threshold = threshold
    def __call__(self, *arrays):
        return (arrays[0] > self.threshold).astype(np.uint8)

# Factory function style
def my_factory(threshold=0.5):
    def run(*arrays):
        return (arrays[0] > threshold).astype(np.uint8)
    return run

Runtime protocol: custom_callable = my_factory(**kwargs) once at construction; result = custom_callable(tensor) once per sample.

Note: The custom callable may not change the shape of the input tensor.

Used by:

• API Reference  proc_ops  Processing

Methods:

Name	Description
__call__
__post_init__
from_proc_descr
get_output_shape

Attributes:

Name	Type	Description
custom_factory	Callable[..., Callable[[NDArray[Any]], NDArray[Any]]]
input	MemberId
kwargs	Mapping[str, Any]	Keyword arguments forwarded to the custom factory.
output	MemberId
required_measures	Collection[Measure]

custom_factory instance-attribute

custom_factory: Callable[..., Callable[[NDArray[Any]], NDArray[Any]]]

input instance-attribute

input: MemberId

kwargs instance-attribute

kwargs: Mapping[str, Any]

Keyword arguments forwarded to the custom factory.

output instance-attribute

output: MemberId

required_measures property

required_measures: Collection[Measure]

__call__

__call__(sample: Union[Sample, SampleBlock]) -> None

Source code in src/bioimageio/core/_op_base.py

def __call__(self, sample: Union[Sample, SampleBlock]) -> None:
    if self.input not in sample.members:
        return  # TODO: raise?

    input_tensor = sample.members[self.input]
    output_tensor = self._apply(input_tensor, sample.stat)

    if self.output in sample.members:
        assert (
            sample.members[self.output].tagged_shape == output_tensor.tagged_shape
        )

    if isinstance(sample, Sample):
        sample.members[self.output] = output_tensor
    elif isinstance(sample, SampleBlock):
        b = sample.blocks[self.input]
        sample.blocks[self.output] = Block(
            sample_shape=self.get_output_shape(sample.sample_shape[self.input]),
            data=output_tensor,
            inner_slice=b.inner_slice,
            halo=b.halo,
            block_index=b.block_index,
            blocks_in_sample=b.blocks_in_sample,
        )
    else:
        assert_never(sample)

__post_init__

__post_init__() -> None

Source code in src/bioimageio/core/proc_ops.py

def __post_init__(self) -> None:
    self._custom_callable = self.custom_factory(**self.kwargs)

from_proc_descr classmethod

from_proc_descr(descr: v0_5.CustomProcessingDescr, member_id: MemberId) -> Self

Source code in src/bioimageio/core/proc_ops.py

@classmethod
def from_proc_descr(
    cls,
    descr: v0_5.CustomProcessingDescr,
    member_id: MemberId,
) -> Self:
    factory = import_callable(descr)

    return cls(
        input=member_id,
        output=member_id,
        custom_factory=factory,
        kwargs=dict(descr.kwargs),
    )

get_output_shape

get_output_shape(input_shape: Mapping[AxisId, int]) -> Mapping[AxisId, int]

Source code in src/bioimageio/core/proc_ops.py

def get_output_shape(
    self, input_shape: Mapping[AxisId, int]
) -> Mapping[AxisId, int]:
    return input_shape

EnsureDtype dataclass

EnsureDtype(input: MemberId, output: MemberId, dtype: DTypeStr)

Bases: SimpleOperator

              flowchart TD
              bioimageio.core.proc_ops.EnsureDtype[EnsureDtype]
              bioimageio.core._op_base.SimpleOperator[SimpleOperator]
              bioimageio.core._op_base.BlockwiseOperator[BlockwiseOperator]
              bioimageio.core._op_base.Operator[Operator]

                              bioimageio.core._op_base.SimpleOperator --> bioimageio.core.proc_ops.EnsureDtype
                                bioimageio.core._op_base.BlockwiseOperator --> bioimageio.core._op_base.SimpleOperator
                                bioimageio.core._op_base.Operator --> bioimageio.core._op_base.BlockwiseOperator
                




              click bioimageio.core.proc_ops.EnsureDtype href "" "bioimageio.core.proc_ops.EnsureDtype"
              click bioimageio.core._op_base.SimpleOperator href "" "bioimageio.core._op_base.SimpleOperator"
              click bioimageio.core._op_base.BlockwiseOperator href "" "bioimageio.core._op_base.BlockwiseOperator"
              click bioimageio.core._op_base.Operator href "" "bioimageio.core._op_base.Operator"
            

Used by:

• API Reference  proc_ops  Processing

Methods:

Name	Description
__call__
from_proc_descr
get_descr
get_output_shape

Attributes:

Name	Type	Description
dtype	DTypeStr
input	MemberId
output	MemberId
required_measures	Collection[Measure]

dtype instance-attribute

dtype: DTypeStr

input instance-attribute

input: MemberId

output instance-attribute

output: MemberId

required_measures property

required_measures: Collection[Measure]

__call__

__call__(sample: Union[Sample, SampleBlock]) -> None

Source code in src/bioimageio/core/_op_base.py

def __call__(self, sample: Union[Sample, SampleBlock]) -> None:
    if self.input not in sample.members:
        return  # TODO: raise?

    input_tensor = sample.members[self.input]
    output_tensor = self._apply(input_tensor, sample.stat)

    if self.output in sample.members:
        assert (
            sample.members[self.output].tagged_shape == output_tensor.tagged_shape
        )

    if isinstance(sample, Sample):
        sample.members[self.output] = output_tensor
    elif isinstance(sample, SampleBlock):
        b = sample.blocks[self.input]
        sample.blocks[self.output] = Block(
            sample_shape=self.get_output_shape(sample.sample_shape[self.input]),
            data=output_tensor,
            inner_slice=b.inner_slice,
            halo=b.halo,
            block_index=b.block_index,
            blocks_in_sample=b.blocks_in_sample,
        )
    else:
        assert_never(sample)

from_proc_descr classmethod

from_proc_descr(descr: v0_5.EnsureDtypeDescr, member_id: MemberId)

Source code in src/bioimageio/core/proc_ops.py

@classmethod
def from_proc_descr(cls, descr: v0_5.EnsureDtypeDescr, member_id: MemberId):
    return cls(input=member_id, output=member_id, dtype=descr.kwargs.dtype)

get_descr

get_descr()

Source code in src/bioimageio/core/proc_ops.py

def get_descr(self):
    return v0_5.EnsureDtypeDescr(kwargs=v0_5.EnsureDtypeKwargs(dtype=self.dtype))

get_output_shape

get_output_shape(input_shape: Mapping[AxisId, int]) -> Mapping[AxisId, int]

Source code in src/bioimageio/core/proc_ops.py

def get_output_shape(
    self, input_shape: Mapping[AxisId, int]
) -> Mapping[AxisId, int]:
    return input_shape

FixedZeroMeanUnitVariance dataclass

FixedZeroMeanUnitVariance(input: MemberId, output: MemberId, mean: Union[float, xr.DataArray], std: Union[float, xr.DataArray], eps: float = 1e-06)

Bases: SimpleOperator

              flowchart TD
              bioimageio.core.proc_ops.FixedZeroMeanUnitVariance[FixedZeroMeanUnitVariance]
              bioimageio.core._op_base.SimpleOperator[SimpleOperator]
              bioimageio.core._op_base.BlockwiseOperator[BlockwiseOperator]
              bioimageio.core._op_base.Operator[Operator]

                              bioimageio.core._op_base.SimpleOperator --> bioimageio.core.proc_ops.FixedZeroMeanUnitVariance
                                bioimageio.core._op_base.BlockwiseOperator --> bioimageio.core._op_base.SimpleOperator
                                bioimageio.core._op_base.Operator --> bioimageio.core._op_base.BlockwiseOperator
                




              click bioimageio.core.proc_ops.FixedZeroMeanUnitVariance href "" "bioimageio.core.proc_ops.FixedZeroMeanUnitVariance"
              click bioimageio.core._op_base.SimpleOperator href "" "bioimageio.core._op_base.SimpleOperator"
              click bioimageio.core._op_base.BlockwiseOperator href "" "bioimageio.core._op_base.BlockwiseOperator"
              click bioimageio.core._op_base.Operator href "" "bioimageio.core._op_base.Operator"
            

normalize to zero mean, unit variance with precomputed values.

Used by:

• API Reference  proc_ops  Processing

Methods:

Name	Description
__call__
__post_init__
from_proc_descr
get_descr
get_output_shape

Attributes:

Name	Type	Description
eps	float
input	MemberId
mean	Union[float, xr.DataArray]
output	MemberId
required_measures	Collection[Measure]
std	Union[float, xr.DataArray]

eps class-attribute instance-attribute

eps: float = 1e-06

input instance-attribute

input: MemberId

mean instance-attribute

mean: Union[float, xr.DataArray]

output instance-attribute

output: MemberId

required_measures property

required_measures: Collection[Measure]

std instance-attribute

std: Union[float, xr.DataArray]

__call__

__call__(sample: Union[Sample, SampleBlock]) -> None

Source code in src/bioimageio/core/_op_base.py

def __call__(self, sample: Union[Sample, SampleBlock]) -> None:
    if self.input not in sample.members:
        return  # TODO: raise?

    input_tensor = sample.members[self.input]
    output_tensor = self._apply(input_tensor, sample.stat)

    if self.output in sample.members:
        assert (
            sample.members[self.output].tagged_shape == output_tensor.tagged_shape
        )

    if isinstance(sample, Sample):
        sample.members[self.output] = output_tensor
    elif isinstance(sample, SampleBlock):
        b = sample.blocks[self.input]
        sample.blocks[self.output] = Block(
            sample_shape=self.get_output_shape(sample.sample_shape[self.input]),
            data=output_tensor,
            inner_slice=b.inner_slice,
            halo=b.halo,
            block_index=b.block_index,
            blocks_in_sample=b.blocks_in_sample,
        )
    else:
        assert_never(sample)

__post_init__

__post_init__()

Source code in src/bioimageio/core/proc_ops.py

def __post_init__(self):
    assert (
        isinstance(self.mean, (int, float))
        or isinstance(self.std, (int, float))
        or self.mean.dims == self.std.dims
    )

from_proc_descr classmethod

from_proc_descr(descr: v0_5.FixedZeroMeanUnitVarianceDescr, member_id: MemberId) -> Self

Source code in src/bioimageio/core/proc_ops.py

@classmethod
def from_proc_descr(
    cls,
    descr: v0_5.FixedZeroMeanUnitVarianceDescr,
    member_id: MemberId,
) -> Self:
    if isinstance(descr.kwargs, v0_5.FixedZeroMeanUnitVarianceKwargs):
        dims = None
    elif isinstance(descr.kwargs, v0_5.FixedZeroMeanUnitVarianceAlongAxisKwargs):
        dims = (AxisId(descr.kwargs.axis),)
    else:
        assert_never(descr.kwargs)

    return cls(
        input=member_id,
        output=member_id,
        mean=xr.DataArray(descr.kwargs.mean, dims=dims),
        std=xr.DataArray(descr.kwargs.std, dims=dims),
    )

get_descr

get_descr()

Source code in src/bioimageio/core/proc_ops.py

def get_descr(self):
    if isinstance(self.mean, (int, float)):
        assert isinstance(self.std, (int, float))
        kwargs = v0_5.FixedZeroMeanUnitVarianceKwargs(mean=self.mean, std=self.std)
    else:
        assert isinstance(self.std, xr.DataArray)
        assert len(self.mean.dims) == 1
        kwargs = v0_5.FixedZeroMeanUnitVarianceAlongAxisKwargs(
            axis=AxisId(str(self.mean.dims[0])),
            mean=list(self.mean),
            std=list(self.std),
        )

    return v0_5.FixedZeroMeanUnitVarianceDescr(kwargs=kwargs)

get_output_shape

get_output_shape(input_shape: Mapping[AxisId, int]) -> Mapping[AxisId, int]

Source code in src/bioimageio/core/proc_ops.py

def get_output_shape(
    self, input_shape: Mapping[AxisId, int]
) -> Mapping[AxisId, int]:
    return input_shape

ScaleLinear dataclass

ScaleLinear(input: MemberId, output: MemberId, gain: Union[float, xr.DataArray] = 1.0, offset: Union[float, xr.DataArray] = 0.0)

Bases: SimpleOperator

              flowchart TD
              bioimageio.core.proc_ops.ScaleLinear[ScaleLinear]
              bioimageio.core._op_base.SimpleOperator[SimpleOperator]
              bioimageio.core._op_base.BlockwiseOperator[BlockwiseOperator]
              bioimageio.core._op_base.Operator[Operator]

                              bioimageio.core._op_base.SimpleOperator --> bioimageio.core.proc_ops.ScaleLinear
                                bioimageio.core._op_base.BlockwiseOperator --> bioimageio.core._op_base.SimpleOperator
                                bioimageio.core._op_base.Operator --> bioimageio.core._op_base.BlockwiseOperator
                




              click bioimageio.core.proc_ops.ScaleLinear href "" "bioimageio.core.proc_ops.ScaleLinear"
              click bioimageio.core._op_base.SimpleOperator href "" "bioimageio.core._op_base.SimpleOperator"
              click bioimageio.core._op_base.BlockwiseOperator href "" "bioimageio.core._op_base.BlockwiseOperator"
              click bioimageio.core._op_base.Operator href "" "bioimageio.core._op_base.Operator"
            

Used by:

• API Reference  proc_ops  Processing

Methods:

Name	Description
__call__
from_proc_descr
get_output_shape

Attributes:

Name	Type	Description
gain	Union[float, xr.DataArray]	multiplicative factor
input	MemberId
offset	Union[float, xr.DataArray]	additive term
output	MemberId
required_measures	Collection[Measure]

gain class-attribute instance-attribute

gain: Union[float, xr.DataArray] = 1.0

multiplicative factor

input instance-attribute

input: MemberId

offset class-attribute instance-attribute

offset: Union[float, xr.DataArray] = 0.0

additive term

output instance-attribute

output: MemberId

required_measures property

required_measures: Collection[Measure]

__call__

__call__(sample: Union[Sample, SampleBlock]) -> None

Source code in src/bioimageio/core/_op_base.py

def __call__(self, sample: Union[Sample, SampleBlock]) -> None:
    if self.input not in sample.members:
        return  # TODO: raise?

    input_tensor = sample.members[self.input]
    output_tensor = self._apply(input_tensor, sample.stat)

    if self.output in sample.members:
        assert (
            sample.members[self.output].tagged_shape == output_tensor.tagged_shape
        )

    if isinstance(sample, Sample):
        sample.members[self.output] = output_tensor
    elif isinstance(sample, SampleBlock):
        b = sample.blocks[self.input]
        sample.blocks[self.output] = Block(
            sample_shape=self.get_output_shape(sample.sample_shape[self.input]),
            data=output_tensor,
            inner_slice=b.inner_slice,
            halo=b.halo,
            block_index=b.block_index,
            blocks_in_sample=b.blocks_in_sample,
        )
    else:
        assert_never(sample)

from_proc_descr classmethod

from_proc_descr(descr: Union[v0_4.ScaleLinearDescr, v0_5.ScaleLinearDescr], member_id: MemberId) -> Self

Source code in src/bioimageio/core/proc_ops.py

@classmethod
def from_proc_descr(
    cls,
    descr: Union[v0_4.ScaleLinearDescr, v0_5.ScaleLinearDescr],
    member_id: MemberId,
) -> Self:
    kwargs = descr.kwargs
    if isinstance(kwargs, v0_5.ScaleLinearKwargs):
        axis = None
    elif isinstance(kwargs, v0_5.ScaleLinearAlongAxisKwargs):
        axis = kwargs.axis
    elif isinstance(kwargs, v0_4.ScaleLinearKwargs):
        if kwargs.axes is not None:
            raise NotImplementedError(
                "model.v0_4.ScaleLinearKwargs with axes not implemented, please consider updating the model to v0_5."
            )
        axis = None
    else:
        assert_never(kwargs)

    if axis:
        gain = xr.DataArray(np.atleast_1d(kwargs.gain), dims=axis)
        offset = xr.DataArray(np.atleast_1d(kwargs.offset), dims=axis)
    else:
        assert isinstance(kwargs.gain, (float, int)) or len(kwargs.gain) == 1, (
            kwargs.gain
        )
        gain = (
            kwargs.gain if isinstance(kwargs.gain, (float, int)) else kwargs.gain[0]
        )
        assert isinstance(kwargs.offset, (float, int)) or len(kwargs.offset) == 1
        offset = (
            kwargs.offset
            if isinstance(kwargs.offset, (float, int))
            else kwargs.offset[0]
        )

    return cls(input=member_id, output=member_id, gain=gain, offset=offset)

get_output_shape

get_output_shape(input_shape: Mapping[AxisId, int]) -> Mapping[AxisId, int]

Source code in src/bioimageio/core/proc_ops.py

def get_output_shape(
    self, input_shape: Mapping[AxisId, int]
) -> Mapping[AxisId, int]:
    return input_shape

ScaleMeanVariance dataclass

ScaleMeanVariance(input: MemberId, output: MemberId, axes: Optional[Sequence[AxisId]] = None, reference_tensor: Optional[MemberId] = None, eps: float = 1e-06)

Bases: SimpleOperator

              flowchart TD
              bioimageio.core.proc_ops.ScaleMeanVariance[ScaleMeanVariance]
              bioimageio.core._op_base.SimpleOperator[SimpleOperator]
              bioimageio.core._op_base.BlockwiseOperator[BlockwiseOperator]
              bioimageio.core._op_base.Operator[Operator]

                              bioimageio.core._op_base.SimpleOperator --> bioimageio.core.proc_ops.ScaleMeanVariance
                                bioimageio.core._op_base.BlockwiseOperator --> bioimageio.core._op_base.SimpleOperator
                                bioimageio.core._op_base.Operator --> bioimageio.core._op_base.BlockwiseOperator
                




              click bioimageio.core.proc_ops.ScaleMeanVariance href "" "bioimageio.core.proc_ops.ScaleMeanVariance"
              click bioimageio.core._op_base.SimpleOperator href "" "bioimageio.core._op_base.SimpleOperator"
              click bioimageio.core._op_base.BlockwiseOperator href "" "bioimageio.core._op_base.BlockwiseOperator"
              click bioimageio.core._op_base.Operator href "" "bioimageio.core._op_base.Operator"
            

Used by:

• API Reference  proc_ops  Processing

Methods:

Name	Description
__call__
__post_init__
from_proc_descr
get_output_shape

Attributes:

Name	Type	Description
axes	Optional[Sequence[AxisId]]
eps	float
input	MemberId
mean	Union[SampleMean, DatasetMean]
output	MemberId
ref_mean	Union[SampleMean, DatasetMean]
ref_std	Union[SampleStd, DatasetStd]
reference_tensor	Optional[MemberId]
required_measures
std	Union[SampleStd, DatasetStd]

axes class-attribute instance-attribute

axes: Optional[Sequence[AxisId]] = None

eps class-attribute instance-attribute

eps: float = 1e-06

input instance-attribute

input: MemberId

mean class-attribute instance-attribute

mean: Union[SampleMean, DatasetMean] = field(init=False)

output instance-attribute

output: MemberId

ref_mean class-attribute instance-attribute

ref_mean: Union[SampleMean, DatasetMean] = field(init=False)

ref_std class-attribute instance-attribute

ref_std: Union[SampleStd, DatasetStd] = field(init=False)

reference_tensor class-attribute instance-attribute

reference_tensor: Optional[MemberId] = None

required_measures property

required_measures

std class-attribute instance-attribute

std: Union[SampleStd, DatasetStd] = field(init=False)

__call__

__call__(sample: Union[Sample, SampleBlock]) -> None

Source code in src/bioimageio/core/_op_base.py

def __call__(self, sample: Union[Sample, SampleBlock]) -> None:
    if self.input not in sample.members:
        return  # TODO: raise?

    input_tensor = sample.members[self.input]
    output_tensor = self._apply(input_tensor, sample.stat)

    if self.output in sample.members:
        assert (
            sample.members[self.output].tagged_shape == output_tensor.tagged_shape
        )

    if isinstance(sample, Sample):
        sample.members[self.output] = output_tensor
    elif isinstance(sample, SampleBlock):
        b = sample.blocks[self.input]
        sample.blocks[self.output] = Block(
            sample_shape=self.get_output_shape(sample.sample_shape[self.input]),
            data=output_tensor,
            inner_slice=b.inner_slice,
            halo=b.halo,
            block_index=b.block_index,
            blocks_in_sample=b.blocks_in_sample,
        )
    else:
        assert_never(sample)

__post_init__

__post_init__()

Source code in src/bioimageio/core/proc_ops.py

def __post_init__(self):
    axes = None if self.axes is None else tuple(self.axes)
    ref_tensor = self.reference_tensor or self.input
    if axes is None or AxisId("batch") not in axes:
        Mean = SampleMean
        Std = SampleStd
    else:
        Mean = DatasetMean
        Std = DatasetStd

    self.mean = Mean(member_id=self.input, axes=axes)
    self.std = Std(member_id=self.input, axes=axes)
    self.ref_mean = Mean(member_id=ref_tensor, axes=axes)
    self.ref_std = Std(member_id=ref_tensor, axes=axes)

from_proc_descr classmethod

from_proc_descr(descr: Union[v0_4.ScaleMeanVarianceDescr, v0_5.ScaleMeanVarianceDescr], member_id: MemberId) -> Self

Source code in src/bioimageio/core/proc_ops.py

@classmethod
def from_proc_descr(
    cls,
    descr: Union[v0_4.ScaleMeanVarianceDescr, v0_5.ScaleMeanVarianceDescr],
    member_id: MemberId,
) -> Self:
    kwargs = descr.kwargs
    _, axes = _get_axes(descr.kwargs)

    return cls(
        input=member_id,
        output=member_id,
        reference_tensor=MemberId(str(kwargs.reference_tensor)),
        axes=axes,
        eps=kwargs.eps,
    )

get_output_shape

get_output_shape(input_shape: Mapping[AxisId, int]) -> Mapping[AxisId, int]

Source code in src/bioimageio/core/proc_ops.py

def get_output_shape(
    self, input_shape: Mapping[AxisId, int]
) -> Mapping[AxisId, int]:
    return input_shape

ScaleRange dataclass

ScaleRange(input: MemberId, output: MemberId, lower_quantile: InitVar[Optional[Union[SampleQuantile, DatasetQuantile]]] = None, upper_quantile: InitVar[Optional[Union[SampleQuantile, DatasetQuantile]]] = None, eps: float = 1e-06)

Bases: SimpleOperator

              flowchart TD
              bioimageio.core.proc_ops.ScaleRange[ScaleRange]
              bioimageio.core._op_base.SimpleOperator[SimpleOperator]
              bioimageio.core._op_base.BlockwiseOperator[BlockwiseOperator]
              bioimageio.core._op_base.Operator[Operator]

                              bioimageio.core._op_base.SimpleOperator --> bioimageio.core.proc_ops.ScaleRange
                                bioimageio.core._op_base.BlockwiseOperator --> bioimageio.core._op_base.SimpleOperator
                                bioimageio.core._op_base.Operator --> bioimageio.core._op_base.BlockwiseOperator
                




              click bioimageio.core.proc_ops.ScaleRange href "" "bioimageio.core.proc_ops.ScaleRange"
              click bioimageio.core._op_base.SimpleOperator href "" "bioimageio.core._op_base.SimpleOperator"
              click bioimageio.core._op_base.BlockwiseOperator href "" "bioimageio.core._op_base.BlockwiseOperator"
              click bioimageio.core._op_base.Operator href "" "bioimageio.core._op_base.Operator"
            

Used by:

• API Reference  proc_ops  Processing

Methods:

Name	Description
__call__
__post_init__
from_proc_descr
get_descr
get_output_shape

Attributes:

Name	Type	Description
eps	float
input	MemberId
lower	Union[SampleQuantile, DatasetQuantile]
output	MemberId
required_measures
upper	Union[SampleQuantile, DatasetQuantile]

eps class-attribute instance-attribute

eps: float = 1e-06

input instance-attribute

input: MemberId

lower class-attribute instance-attribute

lower: Union[SampleQuantile, DatasetQuantile] = field(init=False)

output instance-attribute

output: MemberId

required_measures property

required_measures

upper class-attribute instance-attribute

upper: Union[SampleQuantile, DatasetQuantile] = field(init=False)

__call__

__call__(sample: Union[Sample, SampleBlock]) -> None

Source code in src/bioimageio/core/_op_base.py

def __call__(self, sample: Union[Sample, SampleBlock]) -> None:
    if self.input not in sample.members:
        return  # TODO: raise?

    input_tensor = sample.members[self.input]
    output_tensor = self._apply(input_tensor, sample.stat)

    if self.output in sample.members:
        assert (
            sample.members[self.output].tagged_shape == output_tensor.tagged_shape
        )

    if isinstance(sample, Sample):
        sample.members[self.output] = output_tensor
    elif isinstance(sample, SampleBlock):
        b = sample.blocks[self.input]
        sample.blocks[self.output] = Block(
            sample_shape=self.get_output_shape(sample.sample_shape[self.input]),
            data=output_tensor,
            inner_slice=b.inner_slice,
            halo=b.halo,
            block_index=b.block_index,
            blocks_in_sample=b.blocks_in_sample,
        )
    else:
        assert_never(sample)

__post_init__

__post_init__(lower_quantile: Optional[Union[SampleQuantile, DatasetQuantile]], upper_quantile: Optional[Union[SampleQuantile, DatasetQuantile]])

Source code in src/bioimageio/core/proc_ops.py

def __post_init__(
    self,
    lower_quantile: Optional[Union[SampleQuantile, DatasetQuantile]],
    upper_quantile: Optional[Union[SampleQuantile, DatasetQuantile]],
):
    if lower_quantile is None:
        tid = self.input if upper_quantile is None else upper_quantile.member_id
        self.lower = DatasetQuantile(q=0.0, member_id=tid)
    else:
        self.lower = lower_quantile

    if upper_quantile is None:
        self.upper = DatasetQuantile(q=1.0, member_id=self.lower.member_id)
    else:
        self.upper = upper_quantile

    assert self.lower.member_id == self.upper.member_id
    assert self.lower.q < self.upper.q
    assert self.lower.axes == self.upper.axes

from_proc_descr classmethod

from_proc_descr(descr: Union[v0_4.ScaleRangeDescr, v0_5.ScaleRangeDescr], member_id: MemberId)

Source code in src/bioimageio/core/proc_ops.py

@classmethod
def from_proc_descr(
    cls,
    descr: Union[v0_4.ScaleRangeDescr, v0_5.ScaleRangeDescr],
    member_id: MemberId,
):
    kwargs = descr.kwargs
    ref_tensor = (
        member_id
        if kwargs.reference_tensor is None
        else MemberId(str(kwargs.reference_tensor))
    )
    dataset_mode, axes = _get_axes(descr.kwargs)
    if dataset_mode:
        Quantile = DatasetQuantile
    else:
        Quantile = partial(SampleQuantile, method="linear")

    return cls(
        input=member_id,
        output=member_id,
        lower_quantile=Quantile(
            q=kwargs.min_percentile / 100,
            axes=axes,
            member_id=ref_tensor,
        ),
        upper_quantile=Quantile(
            q=kwargs.max_percentile / 100,
            axes=axes,
            member_id=ref_tensor,
        ),
    )

get_descr

get_descr()

Source code in src/bioimageio/core/proc_ops.py

def get_descr(self):
    assert self.lower.axes == self.upper.axes
    assert self.lower.member_id == self.upper.member_id

    return v0_5.ScaleRangeDescr(
        kwargs=v0_5.ScaleRangeKwargs(
            axes=self.lower.axes,
            min_percentile=self.lower.q * 100,
            max_percentile=self.upper.q * 100,
            eps=self.eps,
            reference_tensor=self.lower.member_id,
        )
    )

get_output_shape

get_output_shape(input_shape: Mapping[AxisId, int]) -> Mapping[AxisId, int]

Source code in src/bioimageio/core/proc_ops.py

def get_output_shape(
    self, input_shape: Mapping[AxisId, int]
) -> Mapping[AxisId, int]:
    return input_shape

Sigmoid dataclass

Sigmoid(input: MemberId, output: MemberId)

Bases: SimpleOperator

              flowchart TD
              bioimageio.core.proc_ops.Sigmoid[Sigmoid]
              bioimageio.core._op_base.SimpleOperator[SimpleOperator]
              bioimageio.core._op_base.BlockwiseOperator[BlockwiseOperator]
              bioimageio.core._op_base.Operator[Operator]

                              bioimageio.core._op_base.SimpleOperator --> bioimageio.core.proc_ops.Sigmoid
                                bioimageio.core._op_base.BlockwiseOperator --> bioimageio.core._op_base.SimpleOperator
                                bioimageio.core._op_base.Operator --> bioimageio.core._op_base.BlockwiseOperator
                




              click bioimageio.core.proc_ops.Sigmoid href "" "bioimageio.core.proc_ops.Sigmoid"
              click bioimageio.core._op_base.SimpleOperator href "" "bioimageio.core._op_base.SimpleOperator"
              click bioimageio.core._op_base.BlockwiseOperator href "" "bioimageio.core._op_base.BlockwiseOperator"
              click bioimageio.core._op_base.Operator href "" "bioimageio.core._op_base.Operator"
            

1 / (1 + e^(-input)).

Used by:

• API Reference  proc_ops  Processing

Methods:

Name	Description
__call__
from_proc_descr
get_descr
get_output_shape

Attributes:

Name	Type	Description
input	MemberId
output	MemberId
required_measures	Collection[Measure]

input instance-attribute

input: MemberId

output instance-attribute

output: MemberId

required_measures property

required_measures: Collection[Measure]

__call__

__call__(sample: Union[Sample, SampleBlock]) -> None

Source code in src/bioimageio/core/_op_base.py

def __call__(self, sample: Union[Sample, SampleBlock]) -> None:
    if self.input not in sample.members:
        return  # TODO: raise?

    input_tensor = sample.members[self.input]
    output_tensor = self._apply(input_tensor, sample.stat)

    if self.output in sample.members:
        assert (
            sample.members[self.output].tagged_shape == output_tensor.tagged_shape
        )

    if isinstance(sample, Sample):
        sample.members[self.output] = output_tensor
    elif isinstance(sample, SampleBlock):
        b = sample.blocks[self.input]
        sample.blocks[self.output] = Block(
            sample_shape=self.get_output_shape(sample.sample_shape[self.input]),
            data=output_tensor,
            inner_slice=b.inner_slice,
            halo=b.halo,
            block_index=b.block_index,
            blocks_in_sample=b.blocks_in_sample,
        )
    else:
        assert_never(sample)

from_proc_descr classmethod

from_proc_descr(descr: Union[v0_4.SigmoidDescr, v0_5.SigmoidDescr], member_id: MemberId) -> Self

Source code in src/bioimageio/core/proc_ops.py

@classmethod
def from_proc_descr(
    cls, descr: Union[v0_4.SigmoidDescr, v0_5.SigmoidDescr], member_id: MemberId
) -> Self:
    assert isinstance(descr, (v0_4.SigmoidDescr, v0_5.SigmoidDescr))
    return cls(input=member_id, output=member_id)

get_descr

get_descr()

Source code in src/bioimageio/core/proc_ops.py

def get_descr(self):
    return v0_5.SigmoidDescr()

get_output_shape

get_output_shape(input_shape: Mapping[AxisId, int]) -> Mapping[AxisId, int]

Source code in src/bioimageio/core/proc_ops.py

def get_output_shape(
    self, input_shape: Mapping[AxisId, int]
) -> Mapping[AxisId, int]:
    return input_shape

Softmax dataclass

Softmax(input: MemberId, output: MemberId, axis: AxisId = AxisId('channel'))

Bases: SimpleOperator

              flowchart TD
              bioimageio.core.proc_ops.Softmax[Softmax]
              bioimageio.core._op_base.SimpleOperator[SimpleOperator]
              bioimageio.core._op_base.BlockwiseOperator[BlockwiseOperator]
              bioimageio.core._op_base.Operator[Operator]

                              bioimageio.core._op_base.SimpleOperator --> bioimageio.core.proc_ops.Softmax
                                bioimageio.core._op_base.BlockwiseOperator --> bioimageio.core._op_base.SimpleOperator
                                bioimageio.core._op_base.Operator --> bioimageio.core._op_base.BlockwiseOperator
                




              click bioimageio.core.proc_ops.Softmax href "" "bioimageio.core.proc_ops.Softmax"
              click bioimageio.core._op_base.SimpleOperator href "" "bioimageio.core._op_base.SimpleOperator"
              click bioimageio.core._op_base.BlockwiseOperator href "" "bioimageio.core._op_base.BlockwiseOperator"
              click bioimageio.core._op_base.Operator href "" "bioimageio.core._op_base.Operator"
            

Softmax activation function.

Used by:

• API Reference  proc_ops  Processing

Methods:

Name	Description
__call__
from_proc_descr
get_descr
get_output_shape

Attributes:

Name	Type	Description
axis	AxisId
input	MemberId
output	MemberId
required_measures	Collection[Measure]

axis class-attribute instance-attribute

axis: AxisId = AxisId('channel')

input instance-attribute

input: MemberId

output instance-attribute

output: MemberId

required_measures property

required_measures: Collection[Measure]

__call__

__call__(sample: Union[Sample, SampleBlock]) -> None

Source code in src/bioimageio/core/_op_base.py

def __call__(self, sample: Union[Sample, SampleBlock]) -> None:
    if self.input not in sample.members:
        return  # TODO: raise?

    input_tensor = sample.members[self.input]
    output_tensor = self._apply(input_tensor, sample.stat)

    if self.output in sample.members:
        assert (
            sample.members[self.output].tagged_shape == output_tensor.tagged_shape
        )

    if isinstance(sample, Sample):
        sample.members[self.output] = output_tensor
    elif isinstance(sample, SampleBlock):
        b = sample.blocks[self.input]
        sample.blocks[self.output] = Block(
            sample_shape=self.get_output_shape(sample.sample_shape[self.input]),
            data=output_tensor,
            inner_slice=b.inner_slice,
            halo=b.halo,
            block_index=b.block_index,
            blocks_in_sample=b.blocks_in_sample,
        )
    else:
        assert_never(sample)

from_proc_descr classmethod

from_proc_descr(descr: v0_5.SoftmaxDescr, member_id: MemberId) -> Self

Source code in src/bioimageio/core/proc_ops.py

@classmethod
def from_proc_descr(cls, descr: v0_5.SoftmaxDescr, member_id: MemberId) -> Self:
    assert isinstance(descr, v0_5.SoftmaxDescr)
    return cls(input=member_id, output=member_id, axis=descr.kwargs.axis)

get_descr

get_descr()

Source code in src/bioimageio/core/proc_ops.py

def get_descr(self):
    return v0_5.SoftmaxDescr(kwargs=v0_5.SoftmaxKwargs(axis=self.axis))

get_output_shape

get_output_shape(input_shape: Mapping[AxisId, int]) -> Mapping[AxisId, int]

Source code in src/bioimageio/core/proc_ops.py

def get_output_shape(
    self, input_shape: Mapping[AxisId, int]
) -> Mapping[AxisId, int]:
    return input_shape

StardistPostprocessing2D dataclass

StardistPostprocessing2D(prob_dist_input_id: MemberId, instance_labels_output_id: MemberId, grid: NdTuple, prob_threshold: float, nms_threshold: float, b: Union[int, NdBorder], n_rays: int)

Bases: _StardistPostprocessingBase[Tuple[int, int], Tuple[Tuple[int, int], Tuple[int, int]]]

              flowchart TD
              bioimageio.core.proc_ops.StardistPostprocessing2D[StardistPostprocessing2D]
              bioimageio.core._ops_stardist._StardistPostprocessingBase[_StardistPostprocessingBase]
              bioimageio.core._op_base.SamplewiseOperator[SamplewiseOperator]
              bioimageio.core._op_base.Operator[Operator]

                              bioimageio.core._ops_stardist._StardistPostprocessingBase --> bioimageio.core.proc_ops.StardistPostprocessing2D
                                bioimageio.core._op_base.SamplewiseOperator --> bioimageio.core._ops_stardist._StardistPostprocessingBase
                                bioimageio.core._op_base.Operator --> bioimageio.core._op_base.SamplewiseOperator
                




              click bioimageio.core.proc_ops.StardistPostprocessing2D href "" "bioimageio.core.proc_ops.StardistPostprocessing2D"
              click bioimageio.core._ops_stardist._StardistPostprocessingBase href "" "bioimageio.core._ops_stardist._StardistPostprocessingBase"
              click bioimageio.core._op_base.SamplewiseOperator href "" "bioimageio.core._op_base.SamplewiseOperator"
              click bioimageio.core._op_base.Operator href "" "bioimageio.core._op_base.Operator"
            

Used by:

• API Reference  proc_ops  Processing

Methods:

Name	Description
__call__
from_proc_descr

Attributes:

Name	Type	Description
b	Union[int, NdBorder]	Border region in which object probability is set to zero.
grid	NdTuple	Grid size of network predictions.
instance_labels_output_id	MemberId
n_rays	int	Number of radial lines (rays) cast from the center of an object to its boundary.
nms_threshold	float	The IoU threshold for non-maximum suppression.
prob_dist_input_id	MemberId
prob_threshold	float	Object probability threshold for non-maximum suppression.
required_measures	Collection[Measure]

b instance-attribute

b: Union[int, NdBorder]

Border region in which object probability is set to zero.

grid instance-attribute

grid: NdTuple

Grid size of network predictions.

instance_labels_output_id instance-attribute

instance_labels_output_id: MemberId

n_rays instance-attribute

n_rays: int

Number of radial lines (rays) cast from the center of an object to its boundary.

nms_threshold instance-attribute

nms_threshold: float

The IoU threshold for non-maximum suppression.

prob_dist_input_id instance-attribute

prob_dist_input_id: MemberId

prob_threshold instance-attribute

prob_threshold: float

Object probability threshold for non-maximum suppression.

required_measures property

required_measures: Collection[Measure]

__call__

__call__(sample: Sample) -> None

Source code in src/bioimageio/core/_ops_stardist.py

def __call__(self, sample: Sample) -> None:
    prob_dist = sample.members[self.prob_dist_input_id]

    assert AxisId("channel") in prob_dist.dims, (
        "expected 'channel' axis in stardist probability/distance input"
    )
    allowed_spatial = tuple(
        map(AxisId, ("y", "x") if len(self.grid) == 2 else ("z", "y", "x"))
    )
    assert all(
        a in allowed_spatial or a in (AxisId("batch"), AxisId("channel"))
        for a in prob_dist.dims
    ), (
        f"expected prob_dist to have only 'batch', 'channel', and spatial axes {allowed_spatial}, but got {prob_dist.dims}"
    )

    spatial_shape = tuple(
        prob_dist.tagged_shape[a] * g for a, g in zip(allowed_spatial, self.grid)
    )
    if len(spatial_shape) != len(self.grid):
        raise ValueError(
            f"expected {len(self.grid)} spatial dimensions in prob_dist tensor, but got {len(spatial_shape)}"
        )
    else:
        spatial_shape = cast(NdTuple, spatial_shape)

    prob_dist = prob_dist.transpose(
        (AxisId("batch"), *allowed_spatial, AxisId("channel"))
    )
    labels: List[NDArray[Any]] = []
    for batch_idx in range(prob_dist.sizes[AxisId("batch")]):
        prob = prob_dist[
            {AxisId("batch"): batch_idx, AxisId("channel"): 0}
        ].to_numpy()
        dist = prob_dist[
            {AxisId("batch"): batch_idx, AxisId("channel"): slice(1, None)}
        ].to_numpy()

        labels_i = self._impl(prob, dist, spatial_shape)
        assert labels_i.shape == spatial_shape, (
            f"expected label image shape {spatial_shape}, but got {labels_i.shape}"
        )
        labels.append(labels_i)

    instance_labels = Tensor(
        np.stack(labels)[..., None],
        dims=(AxisId("batch"), *allowed_spatial, AxisId("channel")),
    )
    sample.members[self.instance_labels_output_id] = instance_labels

from_proc_descr classmethod

from_proc_descr(descr: v0_5.StardistPostprocessingDescr, member_id: MemberId) -> Self

Source code in src/bioimageio/core/_ops_stardist.py

@classmethod
def from_proc_descr(
    cls, descr: v0_5.StardistPostprocessingDescr, member_id: MemberId
) -> Self:
    if not isinstance(descr.kwargs, v0_5.StardistPostprocessingKwargs2D):
        raise TypeError(
            f"expected v0_5.StardistPostprocessingKwargs2D for 2D stardist post-processing, but got {type(descr.kwargs)}"
        )

    kwargs = descr.kwargs
    return cls(
        prob_dist_input_id=member_id,
        instance_labels_output_id=member_id,
        grid=kwargs.grid,
        prob_threshold=kwargs.prob_threshold,
        nms_threshold=kwargs.nms_threshold,
        b=kwargs.b,
        n_rays=kwargs.n_rays,
    )

StardistPostprocessing3D dataclass

StardistPostprocessing3D(prob_dist_input_id: MemberId, instance_labels_output_id: MemberId, grid: NdTuple, prob_threshold: float, nms_threshold: float, b: Union[int, NdBorder], n_rays: int, anisotropy: Tuple[float, float, float], overlap_label: Optional[int] = None)

Bases: _StardistPostprocessingBase[Tuple[int, int, int], Tuple[Tuple[int, int], Tuple[int, int], Tuple[int, int]]]

              flowchart TD
              bioimageio.core.proc_ops.StardistPostprocessing3D[StardistPostprocessing3D]
              bioimageio.core._ops_stardist._StardistPostprocessingBase[_StardistPostprocessingBase]
              bioimageio.core._op_base.SamplewiseOperator[SamplewiseOperator]
              bioimageio.core._op_base.Operator[Operator]

                              bioimageio.core._ops_stardist._StardistPostprocessingBase --> bioimageio.core.proc_ops.StardistPostprocessing3D
                                bioimageio.core._op_base.SamplewiseOperator --> bioimageio.core._ops_stardist._StardistPostprocessingBase
                                bioimageio.core._op_base.Operator --> bioimageio.core._op_base.SamplewiseOperator
                




              click bioimageio.core.proc_ops.StardistPostprocessing3D href "" "bioimageio.core.proc_ops.StardistPostprocessing3D"
              click bioimageio.core._ops_stardist._StardistPostprocessingBase href "" "bioimageio.core._ops_stardist._StardistPostprocessingBase"
              click bioimageio.core._op_base.SamplewiseOperator href "" "bioimageio.core._op_base.SamplewiseOperator"
              click bioimageio.core._op_base.Operator href "" "bioimageio.core._op_base.Operator"
            

Used by:

• API Reference  proc_ops  Processing

Methods:

Name	Description
__call__
from_proc_descr

Attributes:

Name	Type	Description
anisotropy	Tuple[float, float, float]	Anisotropy factors for 3D star-convex polyhedra, i.e. the physical pixel size along each spatial axis.
b	Union[int, NdBorder]	Border region in which object probability is set to zero.
grid	NdTuple	Grid size of network predictions.
instance_labels_output_id	MemberId
n_rays	int	Number of radial lines (rays) cast from the center of an object to its boundary.
nms_threshold	float	The IoU threshold for non-maximum suppression.
overlap_label	Optional[int]	Optional label to apply to any area of overlapping predicted objects.
prob_dist_input_id	MemberId
prob_threshold	float	Object probability threshold for non-maximum suppression.
required_measures	Collection[Measure]

anisotropy instance-attribute

anisotropy: Tuple[float, float, float]

Anisotropy factors for 3D star-convex polyhedra, i.e. the physical pixel size along each spatial axis.

b instance-attribute

b: Union[int, NdBorder]

Border region in which object probability is set to zero.

grid instance-attribute

grid: NdTuple

Grid size of network predictions.

instance_labels_output_id instance-attribute

instance_labels_output_id: MemberId

n_rays instance-attribute

n_rays: int

Number of radial lines (rays) cast from the center of an object to its boundary.

nms_threshold instance-attribute

nms_threshold: float

The IoU threshold for non-maximum suppression.

overlap_label class-attribute instance-attribute

overlap_label: Optional[int] = None

Optional label to apply to any area of overlapping predicted objects.

prob_dist_input_id instance-attribute

prob_dist_input_id: MemberId

prob_threshold instance-attribute

prob_threshold: float

Object probability threshold for non-maximum suppression.

required_measures property

required_measures: Collection[Measure]

__call__

__call__(sample: Sample) -> None

Source code in src/bioimageio/core/_ops_stardist.py

def __call__(self, sample: Sample) -> None:
    prob_dist = sample.members[self.prob_dist_input_id]

    assert AxisId("channel") in prob_dist.dims, (
        "expected 'channel' axis in stardist probability/distance input"
    )
    allowed_spatial = tuple(
        map(AxisId, ("y", "x") if len(self.grid) == 2 else ("z", "y", "x"))
    )
    assert all(
        a in allowed_spatial or a in (AxisId("batch"), AxisId("channel"))
        for a in prob_dist.dims
    ), (
        f"expected prob_dist to have only 'batch', 'channel', and spatial axes {allowed_spatial}, but got {prob_dist.dims}"
    )

    spatial_shape = tuple(
        prob_dist.tagged_shape[a] * g for a, g in zip(allowed_spatial, self.grid)
    )
    if len(spatial_shape) != len(self.grid):
        raise ValueError(
            f"expected {len(self.grid)} spatial dimensions in prob_dist tensor, but got {len(spatial_shape)}"
        )
    else:
        spatial_shape = cast(NdTuple, spatial_shape)

    prob_dist = prob_dist.transpose(
        (AxisId("batch"), *allowed_spatial, AxisId("channel"))
    )
    labels: List[NDArray[Any]] = []
    for batch_idx in range(prob_dist.sizes[AxisId("batch")]):
        prob = prob_dist[
            {AxisId("batch"): batch_idx, AxisId("channel"): 0}
        ].to_numpy()
        dist = prob_dist[
            {AxisId("batch"): batch_idx, AxisId("channel"): slice(1, None)}
        ].to_numpy()

        labels_i = self._impl(prob, dist, spatial_shape)
        assert labels_i.shape == spatial_shape, (
            f"expected label image shape {spatial_shape}, but got {labels_i.shape}"
        )
        labels.append(labels_i)

    instance_labels = Tensor(
        np.stack(labels)[..., None],
        dims=(AxisId("batch"), *allowed_spatial, AxisId("channel")),
    )
    sample.members[self.instance_labels_output_id] = instance_labels

from_proc_descr classmethod

from_proc_descr(descr: v0_5.StardistPostprocessingDescr, member_id: MemberId) -> Self

Source code in src/bioimageio/core/_ops_stardist.py

@classmethod
def from_proc_descr(
    cls, descr: v0_5.StardistPostprocessingDescr, member_id: MemberId
) -> Self:
    if not isinstance(descr.kwargs, v0_5.StardistPostprocessingKwargs3D):
        raise TypeError(
            f"expected v0_5.StardistPostprocessingKwargs3D for 3D stardist post-processing, but got {type(descr.kwargs)}"
        )

    kwargs = descr.kwargs
    return cls(
        prob_dist_input_id=member_id,
        instance_labels_output_id=member_id,
        grid=kwargs.grid,
        prob_threshold=kwargs.prob_threshold,
        nms_threshold=kwargs.nms_threshold,
        n_rays=kwargs.n_rays,
        anisotropy=kwargs.anisotropy,
        b=kwargs.b,
        overlap_label=kwargs.overlap_label,
    )

UpdateStats dataclass

UpdateStats(stats_calculator: StatsCalculator, keep_updating_initial_dataset_stats: bool = False)

Bases: SamplewiseOperator

              flowchart TD
              bioimageio.core.proc_ops.UpdateStats[UpdateStats]
              bioimageio.core._op_base.SamplewiseOperator[SamplewiseOperator]
              bioimageio.core._op_base.Operator[Operator]

                              bioimageio.core._op_base.SamplewiseOperator --> bioimageio.core.proc_ops.UpdateStats
                                bioimageio.core._op_base.Operator --> bioimageio.core._op_base.SamplewiseOperator
                



              click bioimageio.core.proc_ops.UpdateStats href "" "bioimageio.core.proc_ops.UpdateStats"
              click bioimageio.core._op_base.SamplewiseOperator href "" "bioimageio.core._op_base.SamplewiseOperator"
              click bioimageio.core._op_base.Operator href "" "bioimageio.core._op_base.Operator"
            

Calculates sample and/or dataset measures

Used by:

• API Reference  proc_ops  Processing

Methods:

Name	Description
__call__
__post_init__

Attributes:

Name	Type	Description
keep_updating_initial_dataset_stats	bool	indicates if operator calls should keep updating initial dataset statistics or not;
required_measures	Collection[Measure]
stats_calculator	StatsCalculator	StatsCalculator to be used by this operator.

keep_updating_initial_dataset_stats class-attribute instance-attribute

keep_updating_initial_dataset_stats: bool = False

indicates if operator calls should keep updating initial dataset statistics or not; if the stats_calculator was not provided with any initial dataset statistics, these are always updated with every new sample.

required_measures property

required_measures: Collection[Measure]

stats_calculator instance-attribute

stats_calculator: StatsCalculator

StatsCalculator to be used by this operator.

__call__

__call__(sample: Sample) -> None

Source code in src/bioimageio/core/proc_ops.py

def __call__(self, sample: Sample) -> None:
    if self._keep_updating_dataset_stats:
        sample.stat.update(self.stats_calculator.update_and_get_all(sample))
    else:
        sample.stat.update(self.stats_calculator.skip_update_and_get_all(sample))

__post_init__

__post_init__()

Source code in src/bioimageio/core/proc_ops.py

def __post_init__(self):
    self._keep_updating_dataset_stats = (
        self.keep_updating_initial_dataset_stats
        or not self.stats_calculator.has_dataset_measures
    )

ZeroMeanUnitVariance dataclass

ZeroMeanUnitVariance(input: MemberId, output: MemberId, mean: MeanMeasure, std: StdMeasure, eps: float = 1e-06)

Bases: SimpleOperator

              flowchart TD
              bioimageio.core.proc_ops.ZeroMeanUnitVariance[ZeroMeanUnitVariance]
              bioimageio.core._op_base.SimpleOperator[SimpleOperator]
              bioimageio.core._op_base.BlockwiseOperator[BlockwiseOperator]
              bioimageio.core._op_base.Operator[Operator]

                              bioimageio.core._op_base.SimpleOperator --> bioimageio.core.proc_ops.ZeroMeanUnitVariance
                                bioimageio.core._op_base.BlockwiseOperator --> bioimageio.core._op_base.SimpleOperator
                                bioimageio.core._op_base.Operator --> bioimageio.core._op_base.BlockwiseOperator
                




              click bioimageio.core.proc_ops.ZeroMeanUnitVariance href "" "bioimageio.core.proc_ops.ZeroMeanUnitVariance"
              click bioimageio.core._op_base.SimpleOperator href "" "bioimageio.core._op_base.SimpleOperator"
              click bioimageio.core._op_base.BlockwiseOperator href "" "bioimageio.core._op_base.BlockwiseOperator"
              click bioimageio.core._op_base.Operator href "" "bioimageio.core._op_base.Operator"
            

normalize to zero mean, unit variance.

Used by:

• API Reference  proc_ops  Processing

Methods:

Name	Description
__call__
__post_init__
from_proc_descr
get_descr
get_output_shape

Attributes:

Name	Type	Description
eps	float
input	MemberId
mean	MeanMeasure
output	MemberId
required_measures	Set[Union[MeanMeasure, StdMeasure]]
std	StdMeasure

eps class-attribute instance-attribute

eps: float = 1e-06

input instance-attribute

input: MemberId

mean instance-attribute

mean: MeanMeasure

output instance-attribute

output: MemberId

required_measures property

required_measures: Set[Union[MeanMeasure, StdMeasure]]

std instance-attribute

std: StdMeasure

__call__

__call__(sample: Union[Sample, SampleBlock]) -> None

Source code in src/bioimageio/core/_op_base.py

def __call__(self, sample: Union[Sample, SampleBlock]) -> None:
    if self.input not in sample.members:
        return  # TODO: raise?

    input_tensor = sample.members[self.input]
    output_tensor = self._apply(input_tensor, sample.stat)

    if self.output in sample.members:
        assert (
            sample.members[self.output].tagged_shape == output_tensor.tagged_shape
        )

    if isinstance(sample, Sample):
        sample.members[self.output] = output_tensor
    elif isinstance(sample, SampleBlock):
        b = sample.blocks[self.input]
        sample.blocks[self.output] = Block(
            sample_shape=self.get_output_shape(sample.sample_shape[self.input]),
            data=output_tensor,
            inner_slice=b.inner_slice,
            halo=b.halo,
            block_index=b.block_index,
            blocks_in_sample=b.blocks_in_sample,
        )
    else:
        assert_never(sample)

__post_init__

__post_init__()

Source code in src/bioimageio/core/proc_ops.py

def __post_init__(self):
    assert self.mean.axes == self.std.axes

from_proc_descr classmethod

from_proc_descr(descr: Union[v0_4.ZeroMeanUnitVarianceDescr, v0_5.ZeroMeanUnitVarianceDescr], member_id: MemberId)

Source code in src/bioimageio/core/proc_ops.py

@classmethod
def from_proc_descr(
    cls,
    descr: Union[v0_4.ZeroMeanUnitVarianceDescr, v0_5.ZeroMeanUnitVarianceDescr],
    member_id: MemberId,
):
    dataset_mode, axes = _get_axes(descr.kwargs)

    if dataset_mode:
        Mean = DatasetMean
        Std = DatasetStd
    else:
        Mean = SampleMean
        Std = SampleStd

    return cls(
        input=member_id,
        output=member_id,
        mean=Mean(axes=axes, member_id=member_id),
        std=Std(axes=axes, member_id=member_id),
    )

get_descr

get_descr()

Source code in src/bioimageio/core/proc_ops.py

def get_descr(self):
    return v0_5.ZeroMeanUnitVarianceDescr(
        kwargs=v0_5.ZeroMeanUnitVarianceKwargs(axes=self.mean.axes, eps=self.eps)
    )

get_output_shape

get_output_shape(input_shape: Mapping[AxisId, int]) -> Mapping[AxisId, int]

Source code in src/bioimageio/core/proc_ops.py

def get_output_shape(
    self, input_shape: Mapping[AxisId, int]
) -> Mapping[AxisId, int]:
    return input_shape

get_proc

get_proc(proc_descr: ProcDescr, tensor_descr: Union[v0_4.InputTensorDescr, v0_4.OutputTensorDescr, v0_5.InputTensorDescr, v0_5.OutputTensorDescr]) -> Processing

Source code in src/bioimageio/core/proc_ops.py

def get_proc(
    proc_descr: ProcDescr,
    tensor_descr: Union[
        v0_4.InputTensorDescr,
        v0_4.OutputTensorDescr,
        v0_5.InputTensorDescr,
        v0_5.OutputTensorDescr,
    ],
) -> Processing:
    member_id = get_member_id(tensor_descr)

    if isinstance(proc_descr, (v0_4.BinarizeDescr, v0_5.BinarizeDescr)):
        return Binarize.from_proc_descr(proc_descr, member_id)
    elif isinstance(proc_descr, v0_5.CellposeFlowDynamicsDescr):
        return CellposeFlowDynamics.from_proc_descr(proc_descr, member_id)
    elif isinstance(proc_descr, (v0_4.ClipDescr, v0_5.ClipDescr)):
        return Clip.from_proc_descr(proc_descr, member_id)
    elif isinstance(proc_descr, v0_5.CustomProcessingDescr):
        return CustomProcessing.from_proc_descr(proc_descr, member_id)
    elif isinstance(proc_descr, v0_5.EnsureDtypeDescr):
        return EnsureDtype.from_proc_descr(proc_descr, member_id)
    elif isinstance(proc_descr, v0_5.FixedZeroMeanUnitVarianceDescr):
        return FixedZeroMeanUnitVariance.from_proc_descr(proc_descr, member_id)
    elif isinstance(proc_descr, (v0_4.ScaleLinearDescr, v0_5.ScaleLinearDescr)):
        return ScaleLinear.from_proc_descr(proc_descr, member_id)
    elif isinstance(
        proc_descr, (v0_4.ScaleMeanVarianceDescr, v0_5.ScaleMeanVarianceDescr)
    ):
        return ScaleMeanVariance.from_proc_descr(proc_descr, member_id)
    elif isinstance(proc_descr, (v0_4.ScaleRangeDescr, v0_5.ScaleRangeDescr)):
        return ScaleRange.from_proc_descr(proc_descr, member_id)
    elif isinstance(proc_descr, (v0_4.SigmoidDescr, v0_5.SigmoidDescr)):
        return Sigmoid.from_proc_descr(proc_descr, member_id)
    elif (
        isinstance(proc_descr, v0_4.ZeroMeanUnitVarianceDescr)
        and proc_descr.kwargs.mode == "fixed"
    ):
        if not isinstance(
            tensor_descr, (v0_4.InputTensorDescr, v0_4.OutputTensorDescr)
        ):
            raise TypeError(
                "Expected v0_4 tensor description for v0_4 processing description"
            )

        v5_proc_descr = _convert_proc(proc_descr, tensor_descr.axes)
        assert isinstance(v5_proc_descr, v0_5.FixedZeroMeanUnitVarianceDescr)
        return FixedZeroMeanUnitVariance.from_proc_descr(v5_proc_descr, member_id)
    elif isinstance(proc_descr, v0_5.SoftmaxDescr):
        return Softmax.from_proc_descr(proc_descr, member_id)
    elif isinstance(proc_descr, v0_5.StardistPostprocessingDescr):
        if isinstance(proc_descr.kwargs, v0_5.StardistPostprocessingKwargs2D):
            return StardistPostprocessing2D.from_proc_descr(proc_descr, member_id)
        elif isinstance(proc_descr.kwargs, v0_5.StardistPostprocessingKwargs3D):
            return StardistPostprocessing3D.from_proc_descr(proc_descr, member_id)
        else:
            raise ValueError(
                f"expected ndim 2 or 3 for stardist postprocessing, but got {proc_descr.kwargs.ndim}"
            )
    elif isinstance(
        proc_descr,
        (v0_4.ZeroMeanUnitVarianceDescr, v0_5.ZeroMeanUnitVarianceDescr),
    ):
        return ZeroMeanUnitVariance.from_proc_descr(proc_descr, member_id)
    else:
        assert_never(proc_descr)