assert n < nmax
+def path_optimality(ref_paths, paths):
+ return (ref_paths == v_path).long().flatten(1).sum(1) == (
+ paths == v_path
+ ).long().flatten(1).sum(1)
+
+
def path_correctness(mazes, paths):
- still_ok = (mazes - (paths * (paths < 4))).view(mazes.size(0), -1).abs().sum(1) == 0
+ still_ok = (mazes - (paths * (paths != v_path))).view(mazes.size(0), -1).abs().sum(
+ 1
+ ) == 0
reached = still_ok.new_zeros(still_ok.size())
current, pred_current = paths.clone(), paths.new_zeros(paths.size())
goal = (mazes == v_goal).long()
score_paths=None,
score_truth=None,
path_correct=None,
+ path_optimal=None,
):
colors = torch.tensor(
[
)
imgs = torch.cat((imgs, c_score_paths.unsqueeze(1)), 1)
+ img = torch.tensor([255, 255, 0]).view(1, -1, 1, 1)
+
# NxKxCxHxW
- if path_correct is None:
- path_correct = torch.zeros(imgs.size(0)) <= 1
- path_correct = path_correct.cpu().long().view(-1, 1, 1, 1)
- img = torch.tensor([224, 224, 224]).view(1, -1, 1, 1) * path_correct + torch.tensor(
- [255, 0, 0]
- ).view(1, -1, 1, 1) * (1 - path_correct)
+ if path_optimal is not None:
+ path_optimal = path_optimal.cpu().long().view(-1, 1, 1, 1)
+ img = (
+ img * (1 - path_optimal)
+ + torch.tensor([0, 255, 0]).view(1, -1, 1, 1) * path_optimal
+ )
+
+ if path_correct is not None:
+ path_correct = path_correct.cpu().long().view(-1, 1, 1, 1)
+ img = img * path_correct + torch.tensor([255, 0, 0]).view(1, -1, 1, 1) * (
+ 1 - path_correct
+ )
+
img = img.expand(
-1, -1, imgs.size(3) + 2, 1 + imgs.size(1) * (1 + imgs.size(4))
).clone()
+
for k in range(imgs.size(1)):
img[
:,