Due: , 11:59 pm
The purpose of this project is to make a collection of images in the style of Andy Warhol. You'll do this by manipulating the pixel colors of an image.
Here is the reference guide to the graphics package.
Make sure you have copies of the graphics.py and display.py files in your project4 folder.
For this assignment you're going to create two python programs. One will generate a Warhol style collage. The other will change the blue screen to a different color. Both will write their results to an image file, which you can then view with your show program.
In your filter.py file, create a function placeImage() which takes four arguments. The first argument will be a destination Image, the second argument will be a source Image, and the last two arguments will be an x, y location to place the second Image into the first. The function outline in comments is given below.
For each comment inside the function below, you need to write one line of python code.
# place src into dst with upper left at x, y in dst def placeImage( dst, src, x, y ): # assign to rows the height of the src image # assign to cols the width of the src image # loop over each row i in src # loop over each column j in src # assign to the tuple (r, g, b) the result of calling getPixel on src with arguments (j, i) # using dst, call the setPixel method to set location (x + j, y + i) to the color (r, g, b)
The setPixel() function expects a Zelle color. You can create a Zelle color using the function graphics.color_rgb(r, g, b). The color_rgb() function expects values between 0 and 255 for each color channel.
Once you have written your function, you can use this file to test it. Run the test program on the command line and give it an image filename as its argument. For example:
python3 testPlaceImage.py miller.ppm
If you look at the end of test program, you will see that it writes the output to a file called duplicate.ppm. You can use your show.py program to view the duplicate.ppm image. It should show two copies of the original image, side-by-side.
As you are working with your code, remember that the Zelle graphics package can read only PPM type images.
Once you are confident that your placeImage() function works, please remove the comments that we supplied. They don't help the reader understand the overall purpose of the code because they are a line-by-line annotation of what each line does. In most cases, that is obvious from the code itself. Helpful comments include the docstring (which you need to write), which explains the meaning of each parameter.
Create three more functions like swapRedBlue that edit the colors in a Image to achieve some effect. See if you can emulate some of the Instagram effects. Note: when we say "like swapRedBlue", we do not mean "variants of swapRedBlue". A filter that simply reorders the color channels will not count towards your three (though you are welcome to write them in addition to your three, if you like the effect).
Your main warhol program (which you should put in a file named warhol.py) should read in one image, create four copies of it, use your filter functions to alter tham, create a new blank image that is width*2 by height*2 and then use the placeImage() function to insert the four edited images. Finally, it should write out the collage image. The code below is a skeleton of the algorithm.
def main(argv): # if the length of argv is less than 2 # print a usage statement # exit # assign to a variable (e.g. img) the result of reading in the Image from argv # clone img and assign it to a new variable (e.g. map1) # clone img and assign it to a new variable (e.g. map2) # clone img and assign it to a new variable (e.g. map3) # clone img and assign it to a new variable (e.g. map4) # call your first manipulator function on map1 # call your second manipulator function on map2 # call your third manipulator function on map3 # call your fourth manipulator function on map4 # create a new Image that is 2*width x 2*height and store it in a new variable (e.g. collage) # put map1 into the collage at (x, y) = (0, 0) # put map2 into the collage at (0, height) # put map3 into the collage at (width, 0) # put map4 into the collage at (width, height) # save the big image (e.g. collage) to a file
Finish up this task by putting a call to main() inside the conditional statement we've used before. Then call your python program and view the collage.
Tip: For this function, helpful comments would indicate the different sections of code (e.g. "read in one image", "make 4 copies of it", "make an empty image big enough to hold 4 copies of this one", and "put the 4 filtered images into the big one"). And, of course, a docstring is a must.
Your last task is to create a python program that reads in your blue/green-screen image and turns the background pixels to a different color. You can find your image here. The rest of the pixels should remain untouched. You will need to loop over each pixel in the image and test if it is very blue/very green. If it is very blue/very green, change its color. Otherwise, leave it alone.
A reasonable test for 'very blue' is if the blue channel is 1.5 times the red channel and also bigger than the green channel. You can do something similar to define 'very green'.
Remember: These are only examples. Please be creative and pursue extensions that interest you. It shows!
Make a new wiki page for your assignment. Put the label
on the page. Each of you needs to make your own writeup.
In addition to making the wiki page writeup, put the python files you wrote on the Courses server in your private directory in a folder named project4.
In general, your writeup should follow the outline below.
© 2018 Caitrin Eaton.