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# Copyright (c) Facebook, Inc. and its affiliates. | |
from dataclasses import dataclass | |
from typing import Any, Optional, Tuple | |
import torch | |
class DensePoseChartResult: | |
""" | |
DensePose results for chart-based methods represented by labels and inner | |
coordinates (U, V) of individual charts. Each chart is a 2D manifold | |
that has an associated label and is parameterized by two coordinates U and V. | |
Both U and V take values in [0, 1]. | |
Thus the results are represented by two tensors: | |
- labels (tensor [H, W] of long): contains estimated label for each pixel of | |
the detection bounding box of size (H, W) | |
- uv (tensor [2, H, W] of float): contains estimated U and V coordinates | |
for each pixel of the detection bounding box of size (H, W) | |
""" | |
labels: torch.Tensor | |
uv: torch.Tensor | |
def to(self, device: torch.device): | |
""" | |
Transfers all tensors to the given device | |
""" | |
labels = self.labels.to(device) | |
uv = self.uv.to(device) | |
return DensePoseChartResult(labels=labels, uv=uv) | |
class DensePoseChartResultWithConfidences: | |
""" | |
We add confidence values to DensePoseChartResult | |
Thus the results are represented by two tensors: | |
- labels (tensor [H, W] of long): contains estimated label for each pixel of | |
the detection bounding box of size (H, W) | |
- uv (tensor [2, H, W] of float): contains estimated U and V coordinates | |
for each pixel of the detection bounding box of size (H, W) | |
Plus one [H, W] tensor of float for each confidence type | |
""" | |
labels: torch.Tensor | |
uv: torch.Tensor | |
sigma_1: Optional[torch.Tensor] = None | |
sigma_2: Optional[torch.Tensor] = None | |
kappa_u: Optional[torch.Tensor] = None | |
kappa_v: Optional[torch.Tensor] = None | |
fine_segm_confidence: Optional[torch.Tensor] = None | |
coarse_segm_confidence: Optional[torch.Tensor] = None | |
def to(self, device: torch.device): | |
""" | |
Transfers all tensors to the given device, except if their value is None | |
""" | |
def to_device_if_tensor(var: Any): | |
if isinstance(var, torch.Tensor): | |
return var.to(device) | |
return var | |
return DensePoseChartResultWithConfidences( | |
labels=self.labels.to(device), | |
uv=self.uv.to(device), | |
sigma_1=to_device_if_tensor(self.sigma_1), | |
sigma_2=to_device_if_tensor(self.sigma_2), | |
kappa_u=to_device_if_tensor(self.kappa_u), | |
kappa_v=to_device_if_tensor(self.kappa_v), | |
fine_segm_confidence=to_device_if_tensor(self.fine_segm_confidence), | |
coarse_segm_confidence=to_device_if_tensor(self.coarse_segm_confidence), | |
) | |
class DensePoseChartResultQuantized: | |
""" | |
DensePose results for chart-based methods represented by labels and quantized | |
inner coordinates (U, V) of individual charts. Each chart is a 2D manifold | |
that has an associated label and is parameterized by two coordinates U and V. | |
Both U and V take values in [0, 1]. | |
Quantized coordinates Uq and Vq have uint8 values which are obtained as: | |
Uq = U * 255 (hence 0 <= Uq <= 255) | |
Vq = V * 255 (hence 0 <= Vq <= 255) | |
Thus the results are represented by one tensor: | |
- labels_uv_uint8 (tensor [3, H, W] of uint8): contains estimated label | |
and quantized coordinates Uq and Vq for each pixel of the detection | |
bounding box of size (H, W) | |
""" | |
labels_uv_uint8: torch.Tensor | |
def to(self, device: torch.device): | |
""" | |
Transfers all tensors to the given device | |
""" | |
labels_uv_uint8 = self.labels_uv_uint8.to(device) | |
return DensePoseChartResultQuantized(labels_uv_uint8=labels_uv_uint8) | |
class DensePoseChartResultCompressed: | |
""" | |
DensePose results for chart-based methods represented by a PNG-encoded string. | |
The tensor of quantized DensePose results of size [3, H, W] is considered | |
as an image with 3 color channels. PNG compression is applied and the result | |
is stored as a Base64-encoded string. The following attributes are defined: | |
- shape_chw (tuple of 3 int): contains shape of the result tensor | |
(number of channels, height, width) | |
- labels_uv_str (str): contains Base64-encoded results tensor of size | |
[3, H, W] compressed with PNG compression methods | |
""" | |
shape_chw: Tuple[int, int, int] | |
labels_uv_str: str | |
def quantize_densepose_chart_result(result: DensePoseChartResult) -> DensePoseChartResultQuantized: | |
""" | |
Applies quantization to DensePose chart-based result. | |
Args: | |
result (DensePoseChartResult): DensePose chart-based result | |
Return: | |
Quantized DensePose chart-based result (DensePoseChartResultQuantized) | |
""" | |
h, w = result.labels.shape | |
labels_uv_uint8 = torch.zeros([3, h, w], dtype=torch.uint8, device=result.labels.device) | |
labels_uv_uint8[0] = result.labels | |
labels_uv_uint8[1:] = (result.uv * 255).clamp(0, 255).byte() | |
return DensePoseChartResultQuantized(labels_uv_uint8=labels_uv_uint8) | |
def compress_quantized_densepose_chart_result( | |
result: DensePoseChartResultQuantized, | |
) -> DensePoseChartResultCompressed: | |
""" | |
Compresses quantized DensePose chart-based result | |
Args: | |
result (DensePoseChartResultQuantized): quantized DensePose chart-based result | |
Return: | |
Compressed DensePose chart-based result (DensePoseChartResultCompressed) | |
""" | |
import base64 | |
import numpy as np | |
from io import BytesIO | |
from PIL import Image | |
labels_uv_uint8_np_chw = result.labels_uv_uint8.cpu().numpy() | |
labels_uv_uint8_np_hwc = np.moveaxis(labels_uv_uint8_np_chw, 0, -1) | |
im = Image.fromarray(labels_uv_uint8_np_hwc) | |
fstream = BytesIO() | |
im.save(fstream, format="png", optimize=True) | |
labels_uv_str = base64.encodebytes(fstream.getvalue()).decode() | |
shape_chw = labels_uv_uint8_np_chw.shape | |
return DensePoseChartResultCompressed(labels_uv_str=labels_uv_str, shape_chw=shape_chw) | |
def decompress_compressed_densepose_chart_result( | |
result: DensePoseChartResultCompressed, | |
) -> DensePoseChartResultQuantized: | |
""" | |
Decompresses DensePose chart-based result encoded into a base64 string | |
Args: | |
result (DensePoseChartResultCompressed): compressed DensePose chart result | |
Return: | |
Quantized DensePose chart-based result (DensePoseChartResultQuantized) | |
""" | |
import base64 | |
import numpy as np | |
from io import BytesIO | |
from PIL import Image | |
fstream = BytesIO(base64.decodebytes(result.labels_uv_str.encode())) | |
im = Image.open(fstream) | |
labels_uv_uint8_np_chw = np.moveaxis(np.array(im, dtype=np.uint8), -1, 0) | |
return DensePoseChartResultQuantized( | |
labels_uv_uint8=torch.from_numpy(labels_uv_uint8_np_chw.reshape(result.shape_chw)) | |
) | |