Compute with Images¶
Pictures on a computer are broken up into little bits called pixels, for picture (pix) elements (els). These are laid out on a grid, from left to right (the horizontal or x dimension) and top to bottom (the vertical or y dimension).
Pixels are quite small. Even this small picture below has 180 columns and 240 rows of pixels:
- From left to right
- The x value increases from left to right
- From right to left
- The horizontal direction is the x direction
- From top to bottom
- The y value increases from top to bottom
- From bottom to top
- This is common on a Cartesian coordinate system, but it is not true here
csp-1-6-1: Which way does y increase on an image?
Each pixel has a color associated with it: An amount of red, an amount of green, and an amount of blue. The amount can be in the range of 0 to 255 where 0 is none of that color and 255 is the maximum amount of that color. A pixel is displayed using light, not paint, so it may work a bit differently than you might expect if you only have experience making colors by mixing paint. For example, you would mix blue and yellow paint to make green, but you mix red and green light to make yellow light. See http://www.webexhibits.org/causesofcolor/1BE.html for a procedure to try this out for yourself.
All image manipulations in Photoshop and all filters in Instagram or Hipstamatic are created through manipulating those red, green, and blue color components in each pixel.
Let’s remove the red from this picture. The program below does that.
There are lot of lines in the program below. Don’t worry if they don’t all make sense to you right now.
Especially when we write programs to manipulate images, you can ignore many of the lines. Some read in a library to allow us to work with images, like
from image import *. Others like
win = ImageWin(img.getWidth(),img.getHeight())and
img.draw(win)let us see the result.
Words after the
#are ignored by the computer. They are comments to human readers to help them understand a program.
The lines that are important are under the comments (lines that start with a
#). Press the button to hear an audio explanation of the important lines. Press the button to run the program and show the changed image. Please note that processing all those pixels can take a few minutes.
- You still see the picture, but it is all in shades of gray.
- Not if you set all the color values to 0.
- The picture is all white.
- Did you try it? This would be true if you set all the values to 255 instead of 0.
- The picture is all black.
- Black is the absence of light so setting all colors to 0 results in an all black image since there is no light.
csp-1-6-3: What do you think happens when you set all the colors to 0? Try adding
p.setGreen(0) to the program above after the
p.setRed(0) and run it to check.
Discuss topics in this section with classmates.