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import torch
import torch.nn.functional as F
import numpy as np
from .geom import gather_nd
# input: [batch_size, C, H, W]
# output: [batch_size, C, H, W], [batch_size, C, H, W]
def peakiness_score(inputs, moving_instance_max, ksize=3, dilation=1):
inputs = inputs / moving_instance_max
batch_size, C, H, W = inputs.shape
pad_size = ksize // 2 + (dilation - 1)
kernel = torch.ones([C, 1, ksize, ksize], device=inputs.device) / (ksize * ksize)
pad_inputs = F.pad(inputs, [pad_size] * 4, mode="reflect")
avg_spatial_inputs = F.conv2d(
pad_inputs, kernel, stride=1, dilation=dilation, padding=0, groups=C
)
avg_channel_inputs = torch.mean(
inputs, axis=1, keepdim=True
) # channel dimension is 1
alpha = F.softplus(inputs - avg_spatial_inputs)
beta = F.softplus(inputs - avg_channel_inputs)
return alpha, beta
# input: score_map [batch_size, 1, H, W]
# output: indices [2, k, 2], scores [2, k]
def extract_kpts(score_map, k=256, score_thld=0, edge_thld=0, nms_size=3, eof_size=5):
h = score_map.shape[2]
w = score_map.shape[3]
mask = score_map > score_thld
if nms_size > 0:
nms_mask = F.max_pool2d(
score_map, kernel_size=nms_size, stride=1, padding=nms_size // 2
)
nms_mask = torch.eq(score_map, nms_mask)
mask = torch.logical_and(nms_mask, mask)
if eof_size > 0:
eof_mask = torch.ones(
(1, 1, h - 2 * eof_size, w - 2 * eof_size),
dtype=torch.float32,
device=score_map.device,
)
eof_mask = F.pad(eof_mask, [eof_size] * 4, value=0)
eof_mask = eof_mask.bool()
mask = torch.logical_and(eof_mask, mask)
if edge_thld > 0:
non_edge_mask = edge_mask(score_map, 1, dilation=3, edge_thld=edge_thld)
mask = torch.logical_and(non_edge_mask, mask)
bs = score_map.shape[0]
if bs is None:
indices = torch.nonzero(mask)[0]
scores = gather_nd(score_map, indices)[0]
sample = torch.sort(scores, descending=True)[1][0:k]
indices = indices[sample].unsqueeze(0)
scores = scores[sample].unsqueeze(0)
else:
indices = []
scores = []
for i in range(bs):
tmp_mask = mask[i][0]
tmp_score_map = score_map[i][0]
tmp_indices = torch.nonzero(tmp_mask)
tmp_scores = gather_nd(tmp_score_map, tmp_indices)
tmp_sample = torch.sort(tmp_scores, descending=True)[1][0:k]
tmp_indices = tmp_indices[tmp_sample]
tmp_scores = tmp_scores[tmp_sample]
indices.append(tmp_indices)
scores.append(tmp_scores)
try:
indices = torch.stack(indices, dim=0)
scores = torch.stack(scores, dim=0)
except:
min_num = np.min([len(i) for i in indices])
indices = torch.stack([i[:min_num] for i in indices], dim=0)
scores = torch.stack([i[:min_num] for i in scores], dim=0)
return indices, scores
def edge_mask(inputs, n_channel, dilation=1, edge_thld=5):
b, c, h, w = inputs.size()
device = inputs.device
dii_filter = torch.tensor([[0, 1.0, 0], [0, -2.0, 0], [0, 1.0, 0]]).view(1, 1, 3, 3)
dij_filter = 0.25 * torch.tensor(
[[1.0, 0, -1.0], [0, 0.0, 0], [-1.0, 0, 1.0]]
).view(1, 1, 3, 3)
djj_filter = torch.tensor([[0, 0, 0], [1.0, -2.0, 1.0], [0, 0, 0]]).view(1, 1, 3, 3)
dii = F.conv2d(
inputs.view(-1, 1, h, w),
dii_filter.to(device),
padding=dilation,
dilation=dilation,
).view(b, c, h, w)
dij = F.conv2d(
inputs.view(-1, 1, h, w),
dij_filter.to(device),
padding=dilation,
dilation=dilation,
).view(b, c, h, w)
djj = F.conv2d(
inputs.view(-1, 1, h, w),
djj_filter.to(device),
padding=dilation,
dilation=dilation,
).view(b, c, h, w)
det = dii * djj - dij * dij
tr = dii + djj
del dii, dij, djj
threshold = (edge_thld + 1) ** 2 / edge_thld
is_not_edge = torch.min(tr * tr / det <= threshold, det > 0)
return is_not_edge
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