GMU:Bots 'n' Plots/Constantin Oestreich: Difference between revisions

Latest revision as of 21:40, 17 October 2015

Picturius Bottian Twitterbot

What the Bot does: The Bot repost an filtered Image to you (if you send him one). Therefore he choose random 2-4 individual filter functions and create a new Image. He also give back a short sentence which he choose randomly. If you did not send and image and just text... he answer with: "No image".

Ideas andP roblems: I want to do an image bot which is not 100% clear what he creates. So I play whith this random and filter functions. To get on every processed image an individual look i had to go more and more abstract whith his output. So I increase the numbers of filter functions, put in more distorted filters and increase the minimal number of filter routines on every image.

Thanks to: Thanks to Stackoverflow, thanks to the smaller Blogs and Forums I arrieved via Google, thanks to effbot, thanks to Pillow and last but not least thanks to Martin and Sebastian.

The code:

############################
############################
############################
### Main File ##############
############################
############################
############################

#Import Classes + Modules

from twitterbot import TwitterBot
import keys
import random
from io import BytesIO
from PIL import Image
from image import get_image_file

#Import aus Dateien
from textposts import make_text
from textposts import no_image
from imagefuncs import filter


############################
### Twitterbot functions ###
############################

class MyTwitterBot(TwitterBot):
    
    # Keys
    def bot_init(self):
        """ Initialize and configure the bot """

        ############################
        # REQUIRED: LOGIN DETAILS! #
        ############################
        self.config['api_key'] = keys.consumer_key
        self.config['api_secret'] = keys.consumer_secret
        self.config['access_key'] = keys.access_token
        self.config['access_secret'] = keys.access_token_secret


        ######################################
        # SEMI-OPTIONAL: OTHER CONFIG STUFF! #
        ######################################

        # how often to tweet, in seconds
        self.config['tweet_interval'] = 1 * 5     # default: 1 minutes

        # use this to define a (min, max) random range of how often to tweet
        # e.g., self.config['tweet_interval_range'] = (5*60, 10*60) # tweets every 5-10 minutes
        self.config['tweet_interval_range'] = None

        # only reply to tweets that specifically mention the bot
        self.config['reply_direct_mention_only'] = True

        # only include bot followers (and original tweeter) in @-replies
        self.config['reply_followers_only'] = False

        # fav any tweets that mention this bot?
        self.config['autofav_mentions'] = False

        # fav any tweets containing these keywords?
        self.config['autofav_keywords'] = []

        # follow back all followers?
        self.config['autofollow'] = False


    def on_scheduled_tweet(self):
        """ Make a public tweet to the bot's own timeline. """
        # We might take senteces from somewhere and tweet them on a regular basis ...
        pass # don't do anything here ...

    def on_mention(self, tweet, prefix):
        if tweet:
            # get image from tweet
            try:
                image_file = get_image_file(tweet)

                if image_file is None:
                    text = ("{},"+no_image()).format(prefix)
                else:
                    # create a tweet and make sure to cut it off at 140 chars
                    text = ("{},"+make_text()).format(prefix)

            except Exception as e:
                    print(e)

            # do the tweeting based on wether we have an image
            tweetsize = 140 - len(prefix) - 1
            text = text[:140]


            if image_file is None:

                    print("No Image")
                    self.post_tweet(text, reply_to=tweet)
                    return

            else:
                filename, file = image_file
                img = Image.open(file)
                img = filter(img)
                format = filename.split(".", 1)[1].upper()
                print("Image format: {}".format(format))
                output = BytesIO()
                img.save(output, format="PNG")
                
            try:
                # Post
                
                self.post_tweet(text, reply_to=tweet, media=filename, file=output)

                output.close()

            except Exception as e:
                # did anything go wrong when we tried to create and post the tweet?
                print(e)
    
    def on_timeline(self, tweet, prefix):
        """ Actions to take on a timeline tweet. """
        pass # Don't do anything here ...

if __name__ == '__main__':
    bot = MyTwitterBot()
    bot.run()


############################
############################
############################
### Filter File ############
############################
############################
############################

from PIL import Image, ImageDraw, ImageFont, ImageFilter, ImageColor, ImageEnhance
import random


#Bildbearbeitungfunktionen

def edges (image): #002
    return image.filter(ImageFilter.FIND_EDGES)

def transpose(image): #002
    return image.transpose(Image.FLIP_LEFT_RIGHT)

def invert(image): #002
    return image.point(lambda x: 255-x)

def pixelit (image): #001
    xsize, ysize = image.size
    width = xsize
    height = ysize
    minwidth = int(xsize * 0.05)
    minheight = int(ysize * 0.05)
    image = image.resize((minwidth, minheight) , Image.NEAREST)
    image = image.resize((width , height), Image.NEAREST)
    return image

def blend (image): #001
    image.convert("RGBA")
    imgrotate1 = image.rotate(135)
    imgrotate2 = image.rotate(225)
    image2 = Image.blend(imgrotate1, imgrotate2, 0.5)
    image = Image.blend(image, image2, 0.5)
    return image

def nogreen (image): #001
    image.convert("RGB")
    source = image.split()
    R, G, B = 0, 1, 2
    out = source[G].point(lambda i: i*0.0)
    source[G].paste(out, None, None)
    image = Image.merge(image.mode, source)
    return image

def colorchange (image) : #002
    image.convert("RGB")
    source = image.split()
    R, G, B = 0, 1, 2
    mask1 = source[R].point(lambda i: i<200 and 255)
    out1 = source[R].point(lambda i: i*0)
    source[R].paste(out1, None, mask1)
    mask2 = source[G].point(lambda i: i<200 and 255)
    out2 = source[G].point(lambda i: i*0.5)
    source[G].paste(out2, None, mask2)
    image = Image.merge(image.mode, source)
    return image
    
def switchchannels (image) : #001
    image.convert("RGB")
    r,g,b = image.split()
    image = Image.merge ("RGB", (g,b,r))
    return image

def pixelsort (image) :   #002
    source = image
    colors = source.getcolors(source.size[0] * source.size[1])
    pixels = []
    for i, color in colors:
        pixels.extend(i * [color])
    pixels.sort()
    new = Image.new("RGB", source.size)
    new.putdata(pixels)
    image = new
    return image

def pixelunsort (image) : #002
    source = image
    colors = source.getcolors(source.size[0] * source.size[1])
    pixels = []
    for i, color in colors:
        pixels.extend(i * [color])
    random.shuffle(pixels)
    new = Image.new("RGB", source.size)
    new.putdata(pixels)
    image = new
    return image

def spectral (image) : #002
    image2 = image
    image.convert("RGB")
    image = Image.new( "RGB", image.size, "black")
    pixels = image.load()
    for i in range (image.size[0]):
        for j in range (image.size[1]):
            pixels[i,j] = (i, j, 0)
    image = Image.blend(image, image2, 0.4)
    return image

def pixelunsort_green (image) : #001
    image.convert("RGB")
    source2 = image.split()    
    R, G, B = 0, 1, 2
    out1 = source2[R].point(lambda i: i*0.1)
    out2 = source2[B].point(lambda i: i*0.9)
    source2[R].paste(out1, None, None)
    source2[B].paste(out2, None, None)
    image = Image.merge(image.mode, source2)
    source = image
    colors = source.getcolors(source.size[0] * source.size[1])
    pixels = []
    for i, color in colors:
        pixels.extend(i * [color])
    random.shuffle(pixels)
    new = Image.new("RGB", source.size)
    new.putdata(pixels)
    image = new
    return image

def pixelsort_green (image) : #001
    image.convert("RGB")
    source2 = image.split()    
    R, G, B = 0, 1, 2
    out1 = source2[R].point(lambda i: i*0.1)
    out2 = source2[B].point(lambda i: i*0.9)
    source2[R].paste(out1, None, None)
    source2[B].paste(out2, None, None)
    image = Image.merge(image.mode, source2)
    source = image
    colors = source.getcolors(source.size[0] * source.size[1])
    pixels = []
    for i, color in colors:
        pixels.extend(i * [color])
    pixels.sort()
    new = Image.new("RGB", source.size)
    new.putdata(pixels)
    image = new
    return image


#Random Filter List

def filter (image):

    functions_list = [edges, transpose, invert, pixelit, blend, nogreen, colorchange, switchchannels, pixelsort, pixelunsort, spectral, pixelunsort_green, pixelsort_green]
    filename = "final.png"
    
    x = 2
    y = 3
    z = 4
    list = [x, y, z]
    anzahl = random.choice(list)
    print (anzahl)
    
    if anzahl == 2:
        #Random eine Funktion
        imagefunc = random.choice(functions_list)
        image = imagefunc(image)
        #2.Runde Random Filter anwenden
        imagefunc = random.choice(functions_list)
        image = imagefunc(image)
        
    if anzahl == 3:
        #Random eine Funktion
        imagefunc = random.choice(functions_list)
        image = imagefunc(image)
        #2.Runde Random Filter anwenden
        imagefunc = random.choice(functions_list)
        image = imagefunc(image)
        #3.Runde Random Filter anwenden
        imagefunc = random.choice(functions_list)
        image = imagefunc(image)
        
    if anzahl == 4:
        #Random eine Funktion
        imagefunc = random.choice(functions_list)
        image = imagefunc(image)
        #2.Runde Random Filter anwenden
        imagefunc = random.choice(functions_list)
        image = imagefunc(image)
        #3.Runde Random Filter anwenden
        imagefunc = random.choice(functions_list)
        image = imagefunc(image)
        #4.Runde Random Filter anwenden
        imagefunc = random.choice(functions_list)
        image = imagefunc(image)
    
    return image


############################
############################
############################
### Text File ##############
############################
############################
############################

#Import Modules for Project
import random


def make_text():
    a="Yeah, a new Image is Ready"
    b="What do you think about?"
    c="Uh, which Effekt"
    d="Nice"
    e="Thats what I do"
    f="Mhmmm, what you mean?"
    g="My next I post!"
    h="I should do more of this."
    i="Twitter is my life."
    j="This is my job!"
    k="Funky"

    text_list = [a, b, c, d, e, f, g, h, i, j, k]
    
    text = random.choice(text_list)
    
    return text

def no_image():
    a = "No Image there"
    b = "What you do? Where is my Image?"
    c = "I can't read! Send me a picture"
    d = "I like Images!"
    e = "Boring!"
    f = "Okay, I don't know what you want!"
    g = "Pictures! Thats what I want!"
    noimagelist = [a, b, c, d, e, f, g]
    
    text = random.choice(noimagelist)
    
    return text

@@ Line 1: / Line 1: @@
-==== Page of Constantin Oestreich ====
+== Picturius Bottian Twitterbot ==
+[[File:headerpictorius.JPG]]
-Twitter: [https://twitter.com/ConstOest @ConstOest]
+Twitterbot: [https://twitter.com/picturius @Picturus Bottian]
-[[File:Robot_const.jpg]]
+'''What the Bot does:'''
+The Bot repost an filtered Image to you (if you send him one). Therefore he choose random 2-4 individual filter functions and create a new Image. He also give back a short sentence which he choose randomly. If you did not send and image and just text... he answer with: "No image".
+[[File:picturius02.JPG]]
+[[File:picturius03.JPG]]
+[[File:picturius04.JPG]]
+[[File:picturius05.JPG]]
+[[File:picturius06.JPG]]
+[[File:picturius07.JPG]]
+[[File:picturius08.JPG]]
+[[File:picturius09.JPG]]
+'''Ideas andP roblems:'''
+I want to do an image bot which is not 100% clear what he creates. So I play whith this random and filter functions. To get on every processed image an individual look i had to go more and more abstract whith his output. So I increase the numbers of filter functions, put in more distorted filters and increase the minimal number of filter routines on every image.
+'''Thanks to:'''
+Thanks to [http://stackoverflow.com/ Stackoverflow], thanks to the smaller Blogs and Forums I arrieved via Google, thanks to [http://effbot.org/ effbot], thanks to [https://pillow.readthedocs.org// Pillow] and last but not least thanks to Martin and Sebastian.
+'''The code:'''
+<source lang="python">
+############################
+############################
+############################
+### Main File ##############
+############################
+############################
+############################
+#Import Classes + Modules
+from twitterbot import TwitterBot
+import keys
+import random
+from io import BytesIO
+from PIL import Image
+from image import get_image_file
+#Import aus Dateien
+from textposts import make_text
+from textposts import no_image
+from imagefuncs import filter
+############################
+### Twitterbot functions ###
+############################
+class MyTwitterBot(TwitterBot):
+    # Keys
+    def bot_init(self):
+        """ Initialize and configure the bot """
+        ############################
+        # REQUIRED: LOGIN DETAILS! #
+        ############################
+        self.config['api_key'] = keys.consumer_key
+        self.config['api_secret'] = keys.consumer_secret
+        self.config['access_key'] = keys.access_token
+        self.config['access_secret'] = keys.access_token_secret
+        ######################################
+        # SEMI-OPTIONAL: OTHER CONFIG STUFF! #
+        ######################################
+        # how often to tweet, in seconds
+        self.config['tweet_interval'] = 1 * 5     # default: 1 minutes
+        # use this to define a (min, max) random range of how often to tweet
+        # e.g., self.config['tweet_interval_range'] = (5*60, 10*60) # tweets every 5-10 minutes
+        self.config['tweet_interval_range'] = None
+        # only reply to tweets that specifically mention the bot
+        self.config['reply_direct_mention_only'] = True
+        # only include bot followers (and original tweeter) in @-replies
+        self.config['reply_followers_only'] = False
+        # fav any tweets that mention this bot?
+        self.config['autofav_mentions'] = False
+        # fav any tweets containing these keywords?
+        self.config['autofav_keywords'] = []
+        # follow back all followers?
+        self.config['autofollow'] = False
+    def on_scheduled_tweet(self):
+        """ Make a public tweet to the bot's own timeline. """
+        # We might take senteces from somewhere and tweet them on a regular basis ...
+        pass # don't do anything here ...
+    def on_mention(self, tweet, prefix):
+        if tweet:
+            # get image from tweet
+            try:
+                image_file = get_image_file(tweet)
+                if image_file is None:
+                    text = ("{},"+no_image()).format(prefix)
+                else:
+                    # create a tweet and make sure to cut it off at 140 chars
+                    text = ("{},"+make_text()).format(prefix)
+            except Exception as e:
+                    print(e)
+            # do the tweeting based on wether we have an image
+            tweetsize = 140 - len(prefix) - 1
+            text = text[:140]
+            if image_file is None:
+                    print("No Image")
+                    self.post_tweet(text, reply_to=tweet)
+                    return
+            else:
+                filename, file = image_file
+                img = Image.open(file)
+                img = filter(img)
+                format = filename.split(".", 1)[1].upper()
+                print("Image format: {}".format(format))
+                output = BytesIO()
+                img.save(output, format="PNG")
+            try:
+                # Post
+                self.post_tweet(text, reply_to=tweet, media=filename, file=output)
+                output.close()
+            except Exception as e:
+                # did anything go wrong when we tried to create and post the tweet?
+                print(e)
+    def on_timeline(self, tweet, prefix):
+        """ Actions to take on a timeline tweet. """
+        pass # Don't do anything here ...
+if __name__ == '__main__':
+    bot = MyTwitterBot()
+    bot.run()
+############################
+############################
+############################
+### Filter File ############
+############################
+############################
+############################
+from PIL import Image, ImageDraw, ImageFont, ImageFilter, ImageColor, ImageEnhance
+import random
+#Bildbearbeitungfunktionen
+def edges (image): #002
+    return image.filter(ImageFilter.FIND_EDGES)
+def transpose(image): #002
+    return image.transpose(Image.FLIP_LEFT_RIGHT)
+def invert(image): #002
+    return image.point(lambda x: 255-x)
+def pixelit (image): #001
+    xsize, ysize = image.size
+    width = xsize
+    height = ysize
+    minwidth = int(xsize * 0.05)
+    minheight = int(ysize * 0.05)
+    image = image.resize((minwidth, minheight) , Image.NEAREST)
+    image = image.resize((width , height), Image.NEAREST)
+    return image
+def blend (image): #001
+    image.convert("RGBA")
+    imgrotate1 = image.rotate(135)
+    imgrotate2 = image.rotate(225)
+    image2 = Image.blend(imgrotate1, imgrotate2, 0.5)
+    image = Image.blend(image, image2, 0.5)
+    return image
+def nogreen (image): #001
+    image.convert("RGB")
+    source = image.split()
+    R, G, B = 0, 1, 2
+    out = source[G].point(lambda i: i*0.0)
+    source[G].paste(out, None, None)
+    image = Image.merge(image.mode, source)
+    return image
+def colorchange (image) : #002
+    image.convert("RGB")
+    source = image.split()
+    R, G, B = 0, 1, 2
+    mask1 = source[R].point(lambda i: i<200 and 255)
+    out1 = source[R].point(lambda i: i*0)
+    source[R].paste(out1, None, mask1)
+    mask2 = source[G].point(lambda i: i<200 and 255)
+    out2 = source[G].point(lambda i: i*0.5)
+    source[G].paste(out2, None, mask2)
+    image = Image.merge(image.mode, source)
+    return image
+def switchchannels (image) : #001
+    image.convert("RGB")
+    r,g,b = image.split()
+    image = Image.merge ("RGB", (g,b,r))
+    return image
+def pixelsort (image) :   #002
+    source = image
+    colors = source.getcolors(source.size[0] * source.size[1])
+    pixels = []
+    for i, color in colors:
+        pixels.extend(i * [color])
+    pixels.sort()
+    new = Image.new("RGB", source.size)
+    new.putdata(pixels)
+    image = new
+    return image
+def pixelunsort (image) : #002
+    source = image
+    colors = source.getcolors(source.size[0] * source.size[1])
+    pixels = []
+    for i, color in colors:
+        pixels.extend(i * [color])
+    random.shuffle(pixels)
+    new = Image.new("RGB", source.size)
+    new.putdata(pixels)
+    image = new
+    return image
+def spectral (image) : #002
+    image2 = image
+    image.convert("RGB")
+    image = Image.new( "RGB", image.size, "black")
+    pixels = image.load()
+    for i in range (image.size[0]):
+        for j in range (image.size[1]):
+            pixels[i,j] = (i, j, 0)
+    image = Image.blend(image, image2, 0.4)
+    return image
+def pixelunsort_green (image) : #001
+    image.convert("RGB")
+    source2 = image.split()
+    R, G, B = 0, 1, 2
+    out1 = source2[R].point(lambda i: i*0.1)
+    out2 = source2[B].point(lambda i: i*0.9)
+    source2[R].paste(out1, None, None)
+    source2[B].paste(out2, None, None)
+    image = Image.merge(image.mode, source2)
+    source = image
+    colors = source.getcolors(source.size[0] * source.size[1])
+    pixels = []
+    for i, color in colors:
+        pixels.extend(i * [color])
+    random.shuffle(pixels)
+    new = Image.new("RGB", source.size)
+    new.putdata(pixels)
+    image = new
+    return image
+def pixelsort_green (image) : #001
+    image.convert("RGB")
+    source2 = image.split()
+    R, G, B = 0, 1, 2
+    out1 = source2[R].point(lambda i: i*0.1)
+    out2 = source2[B].point(lambda i: i*0.9)
+    source2[R].paste(out1, None, None)
+    source2[B].paste(out2, None, None)
+    image = Image.merge(image.mode, source2)
+    source = image
+    colors = source.getcolors(source.size[0] * source.size[1])
+    pixels = []
+    for i, color in colors:
+        pixels.extend(i * [color])
+    pixels.sort()
+    new = Image.new("RGB", source.size)
+    new.putdata(pixels)
+    image = new
+    return image
+#Random Filter List
+def filter (image):
+    functions_list = [edges, transpose, invert, pixelit, blend, nogreen, colorchange, switchchannels, pixelsort, pixelunsort, spectral, pixelunsort_green, pixelsort_green]
+    filename = "final.png"
+    x = 2
+    y = 3
+    z = 4
+    list = [x, y, z]
+    anzahl = random.choice(list)
+    print (anzahl)
+    if anzahl == 2:
+        #Random eine Funktion
+        imagefunc = random.choice(functions_list)
+        image = imagefunc(image)
+        #2.Runde Random Filter anwenden
+        imagefunc = random.choice(functions_list)
+        image = imagefunc(image)
+    if anzahl == 3:
+        #Random eine Funktion
+        imagefunc = random.choice(functions_list)
+        image = imagefunc(image)
+        #2.Runde Random Filter anwenden
+        imagefunc = random.choice(functions_list)
+        image = imagefunc(image)
+        #3.Runde Random Filter anwenden
+        imagefunc = random.choice(functions_list)
+        image = imagefunc(image)
+    if anzahl == 4:
+        #Random eine Funktion
+        imagefunc = random.choice(functions_list)
+        image = imagefunc(image)
+        #2.Runde Random Filter anwenden
+        imagefunc = random.choice(functions_list)
+        image = imagefunc(image)
+        #3.Runde Random Filter anwenden
+        imagefunc = random.choice(functions_list)
+        image = imagefunc(image)
+        #4.Runde Random Filter anwenden
+        imagefunc = random.choice(functions_list)
+        image = imagefunc(image)
+    return image
+############################
+############################
+############################
+### Text File ##############
+############################
+############################
+############################
+#Import Modules for Project
+import random
+def make_text():
+    a="Yeah, a new Image is Ready"
+    b="What do you think about?"
+    c="Uh, which Effekt"
+    d="Nice"
+    e="Thats what I do"
+    f="Mhmmm, what you mean?"
+    g="My next I post!"
+    h="I should do more of this."
+    i="Twitter is my life."
+    j="This is my job!"
+    k="Funky"
+    text_list = [a, b, c, d, e, f, g, h, i, j, k]
+    text = random.choice(text_list)
+    return text
+def no_image():
+    a = "No Image there"
+    b = "What you do? Where is my Image?"
+    c = "I can't read! Send me a picture"
+    d = "I like Images!"
+    e = "Boring!"
+    f = "Okay, I don't know what you want!"
+    g = "Pictures! Thats what I want!"
+    noimagelist = [a, b, c, d, e, f, g]
+    text = random.choice(noimagelist)
+    return text
+</source>