This section includes simple but very common image transformations like cropping, translation, scaling and rotation.
Crops image src
at coordinate (x1, y1)
up to coordinate
(x2, y2)
. The coordinate indexing is zero-based and (x2, y2)
is non-inclusive.
If dst
is provided, it is used to store the output
image. Otherwise, returns a new res
Tensor.
-- The indexing starts with 0 and 2 is non-inclusive coordinate.
> require('image')
> image.crop(torch.Tensor(3, 2, 2), 0, 0 , 2, 2) -- crop is a correct crop and the result is 3x2x2 tensor.
(1,.,.) =
0 0
0 0
(2,.,.) =
0 0
0 0
(3,.,.) =
0 0
0 0
[torch.DoubleTensor of size 3x2x2]
Crops a width x height
section of source image src
. The argument
format
is a string specifying where to crop: it can be "c", "tl", "tr",
"bl" or "br" for center, top left, top right, bottom left and bottom right,
respectively. If dst
is provided, it is used to store the output
image. Otherwise, returns a new res
Tensor.
Translates image src
by x
pixels horizontally and y
pixels
vertically. If dst
is provided, it is used to store the output
image. Otherwise, returns a new res
Tensor.
Rescale the height and width of image src
to have
width width
and height height
. Variable mode
specifies
type of interpolation to be used. Valid values include
bilinear
(the default), bicubic,
or simple interpolation. Returns a new res
Tensor.
Rescale the height and width of image src
. Variable size
is a number
or a string specifying the size of the result image. When size
is a
number, it specifies the maximum height or width of the output. When it is
a string like WxH
or MAX
or ^MIN
, *SC
or *SCn/SCd
it specifies
the height x width
, maximum height or width of the output, minimum height
or width of the output, scaling factor (number), or fractional scaling
factor (int/int), respectively. If dst
is provided, it will be resized and used to store the result.
Rescale the height and width of image src
to fit the dimensions of
Tensor dst
.
Rotates image src
by theta
radians.
If dst
is specified it is used to store the results of the rotation.
Variable mode
specifies type of interpolation to be used. Valid values include
simple (the default) or bilinear interpolation.
Converts image src
to polar coordinates. In the polar image, angular information is in the vertical direction and radius information in the horizontal direction.
If dst
is specified it is used to store the polar image. If dst
is not specified, its size is automatically determined. Variable interpolation
specifies type of interpolation to be used. Valid values include simple (the default) or bilinear interpolation. Variable mode
determines whether the full image is converted to the polar space (implying empty regions in the polar image), or whether only the valid central part of the polar transform is returned (the default).
Converts image src
to log-polar coordinates. In the log-polar image, angular information is in the vertical direction and log-radius information in the horizontal direction.
If dst
is specified it is used to store the polar image. If dst
is not specified, its size is automatically determined. Variable interpolation
specifies type of interpolation to be used. Valid values include simple (the default) or bilinear interpolation. Variable mode
determines whether the full image is converted to the log-polar space (implying empty regions in the log-polar image), or whether only the valid central part of the log-polar transform is returned (the default).
Flips image src
horizontally (left<->right). If dst
is provided, it is used to
store the output image. Otherwise, returns a new res
Tensor.
Flips image src
vertically (upsize<->down). If dst
is provided, it is used to
store the output image. Otherwise, returns a new res
Tensor.
Flips image src
along the specified dimension. If dst
is provided, it is used to
store the output image. Otherwise, returns a new res
Tensor.
Compresses image tensor
between min
and max
.
When omitted, min
and max
are infered from
tensor:min()
and tensor:max()
, respectively.
The tensor
is normalized using min
and max
by performing :
tensor:add(-min):div(max-min)
Other optional arguments (...
) include symm
, inplace
, saturate
, and tensorOut
.
When symm=true
and min
and max
are both omitted,
max = min*2
in the above equation. This results in a symmetric dynamic
range that is particularly useful for drawing filters. The default is false
.
When inplace=true
, the result of the compression is stored in tensor
.
The default is false
.
When saturate=true
, the result of the compression is passed through
a function that clips the values between 0 and 1
(i.e. anything below 0 is set to 0, anything above 1 is set to 1).
When provided, Tensor tensorOut
is used to store results.
Note that arguments should be provided as key-value pairs (in a table).
Constructs a Gaussian pyramid
of scales scales
from a 2D or 3D src
image or size
[nChannel x] width x height
. Each Tensor at index i
in the returned list of Tensors has size [nChannel x] width*scales[i] x height*scales[i]
.
If list dst
is provided, with or without Tensors, it is used to store the output images.
Otherwise, returns a new res
list of Tensors.
Internally, this function makes use of functions image.gaussian, image.scale and image.convolve.