Custom

class plugins.extract.mask.custom.Custom

Bases: FacePlugin

A mask that fills the whole face area with 1s or 0s (depending on user selected settings) for custom editing.

Attributes Summary

device

The selected device to run torch ops on

Methods Summary

from_torch(batch)	Run inference on a PyTorch model.
load_model()	No model to load, just return
load_torch_model(model, weights_path[, ...])	Load a PyTorch model, apply the weights and pass a warmup batch through
post_process(batch)	Override to perform post-processing
pre_process(batch)	Return a zero array of the same shape and dtype as the input array
process(batch)	Get the masks from the model

Attributes Documentation

device

The selected device to run torch ops on

Methods Documentation

from_torch(batch: ndarray) → ndarray

Run inference on a PyTorch model.

This function does not need to be used, however it handles torch backend for better throughput, so it is recommended. Must have used self.load_torch_model to load the Torch model to use this function.

Parameters:

batch (ndarray) – The batch array to feed to the PyTorch model

Return type:

The result from the PyTorch model

load_model() → None

No model to load, just return

Return type:

None

load_torch_model(model: Module, weights_path: str, return_indices: list[int] | None = None) → Module

Load a PyTorch model, apply the weights and pass a warmup batch through

This function does not need to be used, but some default Faceswap optimizations are performed here, so without using this function you will either need to apply them yourself or not have them applied

Parameters:

• model (Module) – The Torch model to load

• weights_path (str) – Full path to the weights file to load

• return_indices (list[int] | None) – If the model outputs multiple items, but you only require some of them, the indices of the required items can be placed here so that when calling from_torch any extra data is not copied from the GPU. Default: None (return all data)

Return type:

The loaded model ready for inference

post_process(batch: ndarray) → ndarray[tuple[Any, ...], dtype[float32]]

Override to perform post-processing

Parameters:

batch (ndarray) – This will be the output from the previous ‘process’ step

Returns:

• For detect plugins this must be an (N, M, left, top, right, bottom) bounding boxes for

• detected faces scaled to model input size as float32. N is the batch size, M is the number

• of detections per batch

• For align plugins this must be an (N, 68, 2) float32 array for each (x, y) landmark point

• for each face in the batch. co-ordinates should be normalized to 0.0 to 1.0 range

• For mask plugins this must be an (N, size, size) float32 image in range 0. - 1.0 for each

• face in the batch

• For identity plugins this must be an (N, M) float32 identity embedding

Return type:

ndarray[tuple[Any, …], dtype[float32]]

pre_process(batch: ndarray) → ndarray

Return a zero array of the same shape and dtype as the input array

Parameters:

batch (ndarray) – The batch of aligned faces in the correct format for the model

Return type:

A zero’d array of the same shape and dtype as the input

process(batch: ndarray) → ndarray

Get the masks from the model

Parameters:

batch (ndarray) – The batch to process

Return type:

The processed empty masks

load_model() → None

No model to load, just return

Return type:

None

pre_process(batch: ndarray) → ndarray

Return a zero array of the same shape and dtype as the input array

Parameters:

batch (ndarray) – The batch of aligned faces in the correct format for the model

Return type:

A zero’d array of the same shape and dtype as the input

process(batch: ndarray) → ndarray

Get the masks from the model

Parameters:

batch (ndarray) – The batch to process

Return type:

The processed empty masks