sight
A library for Vision Processing
What is sight?
sight is really just a library built on top of OpenCV. It abstracts away all of the awful C-like garbage, and makes it look more rust-like. Here's what I mean.
If I want to read an image from a file, show the original image, convert it to HSV, apply a mask, apply a gaussian blur, draw a circle around the largest blob, convert it back to BGR, and output the image, that can be done very concisely, like this:
import cv2
from sight import *
image = cv2.imread("fuel.png", 1)
# show untouched image
# convert to HSV
original = Image(image).show("original").convert_to_hsv()
# HSV mask for neon yellow
mask = original.get_mask(
[27, 100, 100],
[40, 255, 255]
)
# apply mask
# blur 100%
# draw circle around the largest blob
# convert back to BGR
# show image
original.mask(mask).blur(1).draw_target(mask).convert_to_bgr().show("output")
wait_for_keypress()
exit()See how easy that was?
You might be thinking that it's too high level to be useful. This is not so.
You can use methods like get_blobs, get_largest_blob, and several others to get the data you're looking for.
Documentation
# returns whether or not escape key pressed (True or False)
def escape_key_pressed()
# waits for keypress
def wait_for_keypress()
# destroys windows
def exit()
class Window:
# name the window
def __init__(self, name)
# adds a slider to the window with a given name
# set to the default value
# and with a max value of max
def add_slider(self, name, default=0, max=255)
# gets the value of a slider by name
def get_slider(self, name)
# gets a list of all slider values in the order you
# created the sliders
def get_sliders(self)
class Image:
# Takes an opencv image (a numpy ndarray)
def __init__(self, image)
# returns a copy of the image that you
# can edit without affecting the original
def clone(self)
# Shows this image under a given window name and a size
def show(self, window_name, size=None)
# Resizes the image to a given size
def resize(self, size)
# gets rid of specs and closes holes in image
def smooth(self)
# gaussian blur on image using a percentage
def blur(self, blur_percentage)
# filter image with mask
def mask(self, mask)
# draw text with bottom_corner location
# (x and y are percentages of the screen width and height)
# color and size are optional
def draw_text(self, bottom_corner, text, color=(0, 255, 255), size=1)
# draw circle with center location
# (x and y are percentages of the screen width and height)
# and radius on image
# color and thickness are optional
def draw_circle(self, center, radius, color=(0, 255, 255), thickness=10)
# draws circle around the largest blob using a mask
# color and thickness are optional
def draw_target(self, mask, color=None, thickness=None)
# draws circles around each blob using a mask
# color and thickness are optional
def draw_targets(self, mask, color=None, thickness=None)
# returns image width
def get_width(self)
# returns image height
def get_height(self)
# returns image (width, height)
def get_size(self)
# get mask for values range a to b
# a and b are both lists 3 values long
# a is the lower limit for each channel in the image
# b is the upper limit for each channel in the image
def get_mask(self, a, b)
# returns a list of (x, y, radius) for each blob using a mask
def get_blobs(self, mask)
# returns a (x, y, radius) for the largest blob using a mask
def get_largest_blob(self, mask)
# converts image to HSV image
def convert_to_hsv(self)
# converts image to Gray image
def convert_to_gray(self)
# converts image to BGR image
def convert_to_bgr(self)Install Dependencies
python3 -m pip install opencv-python
python3 -m pip install numpyFuture
I plan to develop this further to add features such as multithreaded, multiscaling template matching, and haarcascades. I also plan to add support for sliders.
Other than that there's not much else to add, the base code is super small yet powerful, and flexible to change.
