*Memos:
- My post explains RandomVerticalFlip().
- My post explains OxfordIIITPet().
RandomHorizontalFlip() can flip an image randomly and horizontally as shown below:
*Memos:
- The 1st argument for initialization is
p(Optional-Default:0.5-Type:intorfloat): *Memos:- It's the probability of whether an image is flipped or not.
- It must be
0 <= x <= 1.
- The 1st argument is
img(Required-Type:PIL Imageortensor(int)): *Memos:- A tensor must be 2D or 3D.
- Don't use
img=.
-
v2is recommended to use according to V1 or V2? Which one should I use?.
from torchvision.datasets import OxfordIIITPet
from torchvision.transforms.v2 import RandomHorizontalFlip
rhf = RandomHorizontalFlip()
rhf = RandomHorizontalFlip(p=0.5)
rhf
# RandomHorizontalFlip(p=0.5)
rhf.p
# 0.5
origin_data = OxfordIIITPet(
root="data",
transform=None
)
noargs_data = OxfordIIITPet( # `noargs` is no arguments.
root="data",
transform=RandomHorizontalFlip()
# transform=RandomHorizontalFlip(p=0)
)
p0_data = OxfordIIITPet(
root="data",
transform=RandomHorizontalFlip(p=0)
)
p05_data = OxfordIIITPet(
root="data",
transform=RandomHorizontalFlip(p=0.5)
# transform=RandomHorizontalFlip()
)
p1_data = OxfordIIITPet(
root="data",
transform=RandomHorizontalFlip(p=1)
)
import matplotlib.pyplot as plt
def show_images1(data, main_title=None):
plt.figure(figsize=[10, 5])
plt.suptitle(t=main_title, y=0.8, fontsize=14)
for i, (im, _) in zip(range(1, 6), data):
plt.subplot(1, 5, i)
plt.imshow(X=im)
plt.xticks(ticks=[])
plt.yticks(ticks=[])
plt.tight_layout()
plt.show()
show_images1(data=origin_data, main_title="origin_data")
print()
show_images1(data=noargs_data, main_title="noargs_data")
show_images1(data=noargs_data, main_title="noargs_data")
show_images1(data=noargs_data, main_title="noargs_data")
print()
show_images1(data=p0_data, main_title="p0_data")
show_images1(data=p0_data, main_title="p0_data")
show_images1(data=p0_data, main_title="p0_data")
print()
show_images1(data=p05_data, main_title="p05_data")
show_images1(data=p05_data, main_title="p05_data")
show_images1(data=p05_data, main_title="p05_data")
print()
show_images1(data=p1_data, main_title="p1_data")
show_images1(data=p1_data, main_title="p1_data")
show_images1(data=p1_data, main_title="p1_data")
# ↓ ↓ ↓ ↓ ↓ ↓ The code below is identical to the code above. ↓ ↓ ↓ ↓ ↓ ↓
def show_images2(data, main_title=None, prob=0.5):
plt.figure(figsize=[10, 5])
plt.suptitle(t=main_title, y=0.8, fontsize=14)
if main_title != "origin_data":
for i, (im, _) in zip(range(1, 6), data):
plt.subplot(1, 5, i)
rhf = RandomHorizontalFlip(p=prob)
plt.imshow(X=rhf(im))
plt.xticks(ticks=[])
plt.yticks(ticks=[])
else:
for i, (im, _) in zip(range(1, 6), data):
plt.subplot(1, 5, i)
plt.imshow(X=im)
plt.xticks(ticks=[])
plt.yticks(ticks=[])
plt.tight_layout()
plt.show()
show_images2(data=origin_data, main_title="origin_data")
print()
show_images2(data=origin_data, main_title="noargs_data")
show_images2(data=origin_data, main_title="noargs_data")
show_images2(data=origin_data, main_title="noargs_data")
print()
show_images2(data=origin_data, main_title="p0_data", prob=0)
show_images2(data=origin_data, main_title="p0_data", prob=0)
show_images2(data=origin_data, main_title="p0_data", prob=0)
print()
show_images2(data=origin_data, main_title="p05_data", prob=0.5)
show_images2(data=origin_data, main_title="p05_data", prob=0.5)
show_images2(data=origin_data, main_title="p05_data", prob=0.5)
print()
show_images2(data=origin_data, main_title="p1_data", prob=1)
show_images2(data=origin_data, main_title="p1_data", prob=1)
show_images2(data=origin_data, main_title="p1_data", prob=1)
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