else

Heroku Bot!

Datapoint/datapoint.py

@@ -0,0 +1,125 @@
+import tkinter
+
+class DataPoint:
+	def __init__(self, width=720, height=480):
+		self.windowtitle = 'DataPoint'
+
+		self.t = tkinter.Tk()
+		self.t.title(self.windowtitle)
+		self.w = width
+		self.h = height
+		self.screenwidth = self.t.winfo_screenwidth()
+		self.screenheight = self.t.winfo_screenheight()
+		self.windowwidth = self.w
+		self.windowheight = self.h
+		self.windowx = (self.screenwidth-self.windowwidth) / 2
+		self.windowy = ((self.screenheight-self.windowheight) / 2) - 27
+		self.geometrystring = '%dx%d+%d+%d' % (self.windowwidth, self.windowheight, self.windowx, self.windowy)
+		self.t.geometry(self.geometrystring)
+
+		self.reset_attributes()
+
+		self.margin = 0.10
+		self.c = tkinter.Canvas(self.t)
+		self.c.pack(fill='both', expand=True)
+		
+		self.clear()
+
+	def mainloop(self):
+		self.t.mainloop()
+
+	def reset_attributes(self):
+		'''
+		Set the DataPoint's grid attributes back to None
+		so that they will be recalculated during the next plot
+		'''
+		self.lowestx = None
+		self.highestx = None
+		self.lowesty = None
+		self.highesty = None
+		self.spanx = None
+		self.spany = None
+		self.marginx = None
+		self.marginy = None
+		self.drawablew = None
+		self.drawableh = None
+
+	def clear(self):
+		self.c.delete('all')
+
+	def meow(self):
+		return 'meow.'
+
+	def function(self, x):
+		x -= 50
+		x *= 0.1
+		y = 1 / (1 + (2.718 ** -x))
+		return y
+
+	def verifypoints(self, points):
+		for item in points:
+			if len(item) != 2:
+				raise Exception('%s Incorrect number of values for coordinate. Use help(plotpoints)' % str(item))
+			for subitem in item:
+				try:
+					int(subitem)
+				except ValueError as e:
+					if not e.args:
+						e.args = ('',)
+					e.args += ('Invalid format. Use help(plotpoints',)
+					raise
+
+	def plotpoints(self, points, pointdiameter=4, fill='#000'):
+		'''
+		Plot points onto the canvas
+		var points = list, where each element is a 2-length list, where [0] is x and [1] is y coordinate
+		var pointdiameter = int for how wide the plotted point should be, in pixels
+		'''
+		self.verifypoints(points)
+
+		if self.lowestx is None:
+			xs = [point[0] for point in points]
+			ys = [point[1] for point in points]
+			self.lowestx = min(xs)
+			self.highestx = max(xs)
+			self.lowesty = min(ys)
+			self.highesty = max(ys)
+			del xs
+			del ys
+
+			self.spanx = abs(self.highestx - self.lowestx)
+			self.spany = abs(self.highesty - self.lowesty)
+			if self.spanx == 0:
+				self.spanx = 1
+			if self.spany == 0:
+				self.spany = 1
+
+			self.marginx = self.w * self.margin
+			self.marginy = self.h * self.margin
+			self.drawablew = self.w - (2 * self.marginx)
+			self.drawableh = self.h - (2 * self.marginy)
+
+		for point in points:
+			# Get percentage of the span
+			x = ((point[0]) - self.lowestx) / self.spanx
+			y = ((point[1]) - self.lowesty) / self.spany
+			# Flip y
+			y = 1 - y
+			# Use the percentage to get a location on the board
+			x *= self.drawablew
+			y *= self.drawableh
+			# Put into center
+			x += self.marginx
+			y += self.marginy
+
+			r = pointdiameter / 2
+			self.c.create_oval(x-r, y-r, x+r, y+r, fill=fill)
+			self.c.update()
+			#print(point, x, y)
+
+if __name__ == '__main__':
+	dp = DataPoint()
+	points = list(range(100))
+	points = [[p, dp.function(p)] for p in points]
+	dp.plotpoints(points)
+	dp.mainloop()

HerokuBot/Procfile

@@ -0,0 +1,2 @@
+# Procfile
+worker: python herokubot.py

HerokuBot/README.md

@@ -0,0 +1,75 @@
+Using Heroku to run a bot
+=============
+
+[Thank you /u/cmd-t for helping me to finally understand this](http://www.reddit.com/r/botwatch/comments/34dpku/can_someone_write_a_complete_idiots_guide_to/cqts1tr)
+
+Inside git.zip is the .git repo that I created for this. I had to zip it so that I can push it here.
+
+1. Create a [Heroku account](http://heroku.com)
+2. Install [Heroku toolbelt](https://toolbelt.heroku.com/)
+3. Install [Git](http://git-scm.com/)
+4. Create a folder to keep your repo
+5. Write your bot
+6. Create requirements.txt, and require a version of praw
+7. Create runtime.txt, and require a version of Python
+8. Create Procfile, and create a worker that will launch your bot.
+9. `> heroku login`
+10. `> git init`
+11. `> git add .`
+12. `> git commit -m "1"`
+13. `> heroku create`
+
+        Creating aqueous-plains-9797... done, stack is cedar-14
+	    https://aqueous-plains-9797.herokuapp.com/ | https://git.heroku.com/aqueous-plains-9797.git
+	    Git remote heroku added
+14. `> git push heroku master`
+
+	    Counting objects: 10, done.
+	    Delta compression using up to 4 threads.
+	    Compressing objects: 100% (7/7), done.
+	    Writing objects: 100% (10/10), 1.06 KiB, done.
+	    Total 10 (delta 1), reused 0 (delta 0)
+	    remote: Compressing source files... done.
+	    remote: Building source:
+	    remote:
+	    remote: -----> Python app detected
+	    remote: -----> Installing runtime (python-3.4.2)
+	    remote: -----> Installing dependencies with pip
+	    remote:        Collecting praw>=2.1.21 (from -r requirements.txt (line 1))
+	    remote:          Downloading praw-2.1.21-py2.py3-none-any.whl (75kB)
+	    remote:        Collecting requests>=2.3.0 (from praw>=2.1.21->-r requirements.txt (line 1))
+	    remote:          Downloading requests-2.6.2-py2.py3-none-any.whl (470kB)
+	    remote:        Collecting update-checker>=0.11 (from praw>=2.1.21->-r requirements.txt (line 1))
+	    remote:          Downloading update_checker-0.11-py2.py3-none-any.whl
+	    remote:        Collecting six>=1.4 (from praw>=2.1.21->-r requirements.txt (line 1))
+	    remote:          Downloading six-1.9.0-py2.py3-none-any.whl
+	    remote:        Installing collected packages: six, update-checker, requests, praw
+	    remote:
+	    remote:
+	    remote:
+	    remote:
+	    remote:        Successfully installed praw-2.1.21 requests-2.6.2 six-1.9.0 update-checker-0.11
+	    remote:
+	    remote: -----> Discovering process types
+	    remote:        Procfile declares types -> worker
+	    remote:
+	    remote: -----> Compressing... done, 38.3MB
+	    remote: -----> Launching... done, v3
+	    remote:        https://aqueous-plains-9797.herokuapp.com/ deployed to Heroku
+	    remote:
+	    remote: Verifying deploy... done.
+	    To https://git.heroku.com/aqueous-plains-9797.git
+	     * [new branch]      master -> master
+15. `> heroku ps:scale worker=1`
+
+        Scaling dynos... done, now running worker at 1:1X.
+16. `> heroku logs > logs.txt`
+
+	    2015-05-01T00:32:38.691805+00:00 app[worker.1]: Logging in.
+	    2015-05-01T00:32:41.396117+00:00 app[worker.1]: Getting subreddit info.
+	    2015-05-01T00:32:41.397202+00:00 app[worker.1]: /r/Goldtesting
+	    2015-05-01T00:32:45.316887+00:00 app[worker.1]: 	Created at: 1400997940
+	    2015-05-01T00:32:45.316897+00:00 app[worker.1]: 	Subscribers: 17
+	    2015-05-01T00:32:45.316900+00:00 app[worker.1]: All done!
+
+17. Celebrate

HerokuBot/herokubot.py

@@ -0,0 +1,16 @@
+import praw
+import time
+
+print('Logging in.')
+r = praw.Reddit('Testing praw api usage over Heroku')
+r.login('qQGusVuAHezHxhYTiYGm', 'qQGusVuAHezHxhYTiYGm')
+
+print('Getting subreddit info.')
+sub = r.get_subreddit('Goldtesting')
+print('/r/Goldtesting')
+print('\tCreated at: %d' % sub.created_utc)
+print('\tSubscribers: %d' % sub.subscribers)
+
+print('All done!')
+while True:
+	time.sleep(60)

HerokuBot/requirements.txt

@@ -0,0 +1 @@
+praw >= 2.1.21

HerokuBot/runtime.txt

@@ -0,0 +1 @@
+python-3.4.2

Logogame/logos.py

@@ -1,381 +0,0 @@
-import os
-import tkinter
-import sqlite3
-import hashlib
-import string
-from PIL import Image
-from PIL import ImageTk
-
-class Generic:
-	def __init__(self):
-		pass
-	def set_dict_attributes(self, attributes):
-		for attribute in attributes:
-			setattr(self, attribute, attributes[attribute])
-
-class LogoGame:
-	def __init__(self):
-		self.WINDOWS_BADCHARS = '\\/?:*"><|'
-		self.t = tkinter.Tk()
-		self.t.title('Logogame')
-		if not os.path.exists('logos.db'):
-			print('You\'re missing the game\'s logo database!')
-			print('Cannot proceed!')
-			quit()
-
-		self.font_main = ('Consolas', 12)
-		self.font_small = ('Consolas', 8)
-		self.color_blue = '#0ed'
-		self.color_green = '#31f13a'
-		self.color_red = '#e23939'
-
-		self.logos_per_row = 6
-		self.logo_padx = 10
-		self.logo_pady = 10
-
-		self.dbindex_id = 0
-		self.dbindex_name = 1
-		self.dbindex_solutions = 2
-		self.dbindex_images = 3
-		self.dbindex_tag = 4
-
-		self.sql = sqlite3.connect('logos.db')
-		self.cur = self.sql.cursor()
-		self.stats_main = self.stats_load('stats')
-		self.playerstats_load(self.stats_main.playername)
-
-		self.tkinter_elements = []
-		self.logo_elements = []
-		self.tag_elements = []
-		self.active_tags = set()
-		self.all_tags = []
-		self.all_logos = []
-		self.logos_load()
-
-		self.w = 1062
-		self.h = 600
-		self.screenwidth = self.t.winfo_screenwidth()
-		self.screenheight = self.t.winfo_screenheight()
-		self.windowwidth = self.w
-		self.windowheight = self.h
-		self.windowx = (self.screenwidth-self.windowwidth) / 2
-		self.windowy = ((self.screenheight-self.windowheight) / 2) - 27
-		self.geometrystring = '%dx%d+%d+%d' % (self.windowwidth, self.windowheight, self.windowx, self.windowy)
-		self.t.geometry(self.geometrystring)
-
-
-		#self.t.bind('<Configure>', self.update_wh)
-
-	def start(self):
-		self.gui_build_main()
-		self.t.mainloop()
-
-	def logos_load(self):
-		self.all_logos = []
-		self.cur.execute('SELECT * FROM logos')
-		fetch = self.cur.fetchall()
-		for item in fetch:
-			logo = Generic()
-			logo.id = item[self.dbindex_id]
-			logo.images = item[self.dbindex_images].split(',')
-			logo.name = item[self.dbindex_name]
-			logo.solutions = item[self.dbindex_solutions].split(',')
-			logo.tags = item[self.dbindex_tag].split(',')
-			logo.solved = self.playerstats_hassolved(logo.id)
-			self.all_logos.append(logo)
-		self.all_tags = self.get_all_tags()
-		self.all_tags.append('Completed')
-
-	def destroy_all_elements(self):
-		self.tag_elements = []
-		self.destroy_all_logos()
-		while len(self.tkinter_elements) > 0:
-			self.tkinter_elements[0].destroy()
-			del self.tkinter_elements[0]
-
-	def destroy_all_logos(self):
-		while len(self.logo_elements) > 0:
-			self.logo_elements[0].destroy()
-			del self.logo_elements[0]
-
-	def gui_build_main(self, *b):
-		self.destroy_all_elements()
-		###
-		self.frame_mainmenu = tkinter.Frame(self.t)
-		self.frame_mainmenu.pack(expand=True, anchor='center')
-		self.tkinter_elements.append(self.frame_mainmenu)
-		#
-		self.button_playgame = tkinter.Button(
-			self.frame_mainmenu,
-			text='Play',
-			#relief='flat',
-			font=self.font_main,
-			bg=self.color_green,
-			activebackground=self.color_green,
-			command=self.gui_build_game)
-		self.button_playgame.grid(row=10, column=5)
-		self.tkinter_elements.append(self.button_playgame)
-		#
-		self.label_playername = tkinter.Label(
-			self.frame_mainmenu,
-			text='Player name: ',
-			font=self.font_main)
-		self.label_playername.grid(row=30, column=4)
-		self.tkinter_elements.append(self.label_playername)
-		#
-		self.entry_playername = tkinter.Entry(
-			self.frame_mainmenu,
-			font=self.font_main,
-			relief='solid',
-			width=30)
-		self.entry_playername.bind('<Return>', lambda x: self.playername_set(self.entry_playername.get()))
-		self.entry_playername.insert(0, self.stats_main.playername)
-		self.entry_playername.grid(row=30, column=5)
-		self.tkinter_elements.append(self.entry_playername)
-		#
-		self.button_playername = tkinter.Button(
-			self.frame_mainmenu, 
-			text='Set', 
-			font=self.font_small,
-			#relief='flat', 
-			bg=self.color_blue, 
-			activebackground=self.color_blue,
-			command=lambda: self.playername_set(self.entry_playername.get()))
-		self.button_playername.grid(row=30, column=6)
-		self.tkinter_elements.append(self.button_playername)
-		#
-		self.label_playerhash = tkinter.Label(
-			self.frame_mainmenu,
-			text=self.sha8(self.stats_main.playername),
-			font=self.font_main)
-		self.label_playerhash.grid(row=30, column=7)
-		self.tkinter_elements.append(self.label_playerhash)
-		###
-
-	def gui_build_game(self, *b):
-		self.destroy_all_elements()
-		###
-		self.frame_gametoolbar = tkinter.Frame(self.t)
-		self.frame_gametoolbar.pack(fill='x', anchor='n')
-		self.tkinter_elements.append(self.frame_gametoolbar)
-		#
-		self.button_back = tkinter.Button(
-			self.frame_gametoolbar,
-			text='X',
-			font=self.font_main,
-			bg=self.color_red,
-			activebackground=self.color_red,
-			command=self.gui_build_main)
-		self.button_back.grid(row=0, column=0)
-		self.tkinter_elements.append(self.button_back)
-		#
-		#self.frame_gamearea = tkinter.Frame(self.t, bg='#f00')
-		#self.frame_gamearea.pack(expand=True, fill='both', anchor='w')
-		#
-		self.frame_posttoolbar = tkinter.Frame(self.t)
-		self.frame_posttoolbar.pack(expand=True, fill='both')
-		self.tkinter_elements.append(self.frame_posttoolbar)
-		#
-		self.frame_gametaglist = tkinter.Frame(self.frame_posttoolbar)
-		self.frame_gametaglist.pack(expand=True, fill='y', side='left', anchor='w')
-		self.tkinter_elements.append(self.frame_gametaglist)
-		#
-		self.frame_logoarea = tkinter.Frame(self.frame_posttoolbar)
-		self.frame_logoarea.pack(expand=True, fill='both', anchor='e')
-		self.tkinter_elements.append(self.frame_logoarea)
-		#
-		button_applytag = tkinter.Button(self.frame_gametaglist, text='Apply', command=self.gui_rebuild_game)
-		button_applytag.grid(row=0, column=0, sticky='w')
-		#
-		for i in range(len(self.all_tags)):
-			tag = self.all_tags[i]
-			intvar = tkinter.IntVar()
-			intvar.tag=tag
-			checkbox = tkinter.Checkbutton(self.frame_gametaglist, text=tag, variable=intvar)
-			checkbox.intvar = intvar
-			checkbox.grid(row=i+1, column=0, sticky='w')
-			intvar.set(1)
-			self.tkinter_elements.append(checkbox)
-			self.tag_elements.append(checkbox)
-			self.active_tags.add(tag)
-
-		self.gui_rebuild_game()
-
-		###
-
-	def gui_rebuild_game(self, *b):
-		self.destroy_all_logos()
-		w = self.t.winfo_width()
-		h = self.t.winfo_height()
-		resizemeter = w / 9
-		row = 0
-		col = 0
-		for element in self.tag_elements:
-			if element.intvar.get() == 1:
-				self.active_tags.add(element.intvar.tag)
-			elif element.intvar.tag in self.active_tags:
-				self.active_tags.remove(element.intvar.tag)
-
-		for logo in self.all_logos:
-			if not any(tag in self.active_tags for tag in logo.tags):
-				continue
-			if logo.solved is True and 'Completed' not in self.active_tags:
-				continue
-			logoframe = tkinter.Frame(self.frame_logoarea)
-			logoframe.pack_propagate(0)
-			self.logo_elements.append(logoframe)
-			imageframe = tkinter.Frame(logoframe, width=resizemeter, height=resizemeter)
-			imageframe.pack_propagate(0)
-			imageframe.grid(row=0, column=0, sticky='n')
-			label_image = tkinter.Label(imageframe)
-			label_image.pack(anchor='center', expand=True, fill='both')
-			label_name = tkinter.Label(logoframe)
-			entry_name = tkinter.Entry(logoframe)
-			if logo.solved is True:
-				i = self.png_load(logo.images[-1], resizemeter)
-				label_image.configure(image=i)
-				label_image.i = i
-				label_name.configure(text=logo.name)
-				label_name.grid(row=1, column=0, sticky='s')
-			else:
-				i = self.png_load(logo.images[0], resizemeter)
-				label_image.configure(image=i)
-				label_image.i = i
-				entry_name.grid(row=1, column=0, sticky='s')
-			self.tkinter_elements.append(logoframe)
-			logoframe.id = logo.id
-			logoframe.entry_name = entry_name
-			logoframe.label_name = label_name
-			logoframe.label_image = label_image
-			logoframe.grid(row=row, column=col, padx=self.logo_padx, pady=self.logo_pady)
-			col += 1
-			col = col % self.logos_per_row
-			if col == 0:
-				row += 1
-
-
-	def gui_build_logo(self, *b):
-		self.destroy_all_elements()
-		###
-
-	def playername_set(self, newname):
-		if newname == '':
-			return
-		if newname != self.stats_main.playername:
-			self.cur.execute('UPDATE stats SET value=? WHERE key="playername"', [newname])
-			self.sql.commit()
-			playerhash = self.playerstats_load(newname)
-			self.stats_main.playername = newname
-
-			if self.label_playerhash:
-				self.label_playerhash.configure(text=playerhash)
-		for logo in self.all_logos:
-			logo.solved = self.playerstats_hassolved(logo.id)
-		print('Name: ' + self.stats_main.playername)
-		self.clean_empty_dbs()
-
-	def sha8(self, text):
-		sha = hashlib.sha256()
-		sha.update(text.encode('utf-8'))
-		sha = sha.hexdigest()
-		return sha[:8]
-
-	def png_load(self, filename, resize=None):
-		if filename[-4:] != '.png':
-			filename = filename + '.png'
-		filename = 'images/' + filename
-		i = Image.open(filename)
-		if resize:
-			ratio = resize / max(i.size)
-			newx = int(i.size[0] * ratio)
-			newy = int(i.size[1] * ratio)
-			i = i.resize([newx, newy], resample=Image.ANTIALIAS)
-		i = ImageTk.PhotoImage(i)
-		return i
-
-	def stats_load(self, database):
-		if database == 'stats':
-			self.cur.execute('SELECT * FROM stats')
-			fetchall = self.cur.fetchall()
-		if database == 'player':
-			self.cur_player.execute('SELECT * FROM stats')
-			fetchall = self.cur_player.fetchall()
-		keyvals = {}
-		for fetched in fetchall:
-			keyvals[fetched[0]] = fetched[1]
-		stats = Generic()
-		stats.set_dict_attributes(keyvals)
-		return stats
-
-	def playerstats_load(self, playername, presha=False):
-		if not presha:
-			sha = self.sha8(playername)
-		else:
-			sha = playername
-		filename = self.strip_to_filename(playername) + '_' + sha
-		self.sql_player = sqlite3.connect('playerdata/%s.db' % filename)
-		self.cur_player = self.sql_player.cursor()
-		self.cur_player.execute('CREATE TABLE IF NOT EXISTS stats(key TEXT, value TEXT)')
-		self.sql_player.commit()
-		return sha
-
-	def playerstats_set(self, key, value):
-		self.cur_player.execute('SELECT * FROM stats WHERE key=?', [key])
-		if cur.fetchone():
-			self.cur_player.execute('UPDATE stats SET value=? WHERE key=?', [value, key])
-		else:
-			self.cur_player.execute('INSERT INTO stats VALUES(?, ?)', [key, value])
-		self.sql_player.commit()
-
-	def playerstats_get(self, key):
-		self.cur_player.execute('SELECT * FROM stats WHERE key=?', [key])
-		f = self.cur_player.fetchone()
-		if f:
-			return f[1]
-		return None
-
-	def playerstats_hassolved(self, logoid):
-		key = 'hassolved_%d' % logoid
-		val = self.playerstats_get(key)
-		if val is None:
-			return False
-		return True
-
-	def strip_to_filename(self, s):
-		for badchar in self.WINDOWS_BADCHARS:
-			s = s.replace(badchar, '')
-		return s
-
-	def get_all_tags(self):
-		self.cur.execute('SELECT * FROM logos')
-		fetch = self.cur.fetchall()
-		alltags = []
-		for item in fetch:
-			itemtags = item[self.dbindex_tag]
-			itemtags = itemtags.replace(', ', ',')
-			itemtags = itemtags.split(',')
-			alltags += itemtags
-		alltags = list(set(alltags))
-		alltags.sort()
-		return alltags
-
-	def clean_empty_dbs(self):
-		ls = os.listdir('playerdata')
-		todelete = []
-		for name in ls:
-			name = 'playerdata/'+name
-			s = sqlite3.connect(name)
-			c = s.cursor()
-			c.execute('SELECT * FROM stats')
-			if not c.fetchone():
-				del c
-				del s
-				try:
-					os.remove(name)
-				except PermissionError:
-					pass
-
-
-if __name__ == '__main__':
-	logogame = LogoGame()
-	logogame.start()

TKdraw/tkdraw.py

@@ -0,0 +1,59 @@
+import tkinter
+
+class TKDraw():
+	def __init__(self):
+		self.windowtitle = 'Tkdraw'
+
+		self.ismousedown = False
+		self.minwidth = 1
+		self.maxwidth = 5
+
+		self.t = tkinter.Tk()
+		self.t.title(self.windowtitle)
+		self.w = 450
+		self.h = 350
+		self.screenwidth = self.t.winfo_screenwidth()
+		self.screenheight = self.t.winfo_screenheight()
+		self.windowwidth = self.w
+		self.windowheight = self.h
+		self.windowx = (self.screenwidth-self.windowwidth) / 2
+		self.windowy = ((self.screenheight-self.windowheight) / 2) - 27
+		self.geometrystring = '%dx%d+%d+%d' % (self.windowwidth, self.windowheight, self.windowx, self.windowy)
+		self.t.geometry(self.geometrystring)
+
+		self.canvas = tkinter.Canvas(self.t, bg='#000')
+		self.canvas.pack(expand=True, fill='both')
+		#print(help(self.canvas.bind))
+		self.canvas.bind('<ButtonPress>', self.mousedown)
+		self.canvas.bind('<ButtonRelease>', self.mouseup)
+		self.canvas.bind('<Motion>', self.mousedraw)
+		self.prevx = None
+		self.prevy = None
+
+	def mainloop(self):
+		self.t.mainloop()
+
+	def mousedown(self, *b):
+		self.ismousedown = True
+
+	def mouseup(self, *b):
+		self.ismousedown = False
+		self.prevx = None
+		self.prevy = None
+
+	def mousedraw(self, event):
+		if self.ismousedown is False:
+			return
+		x = event.x
+		y = event.y
+		if self.prevx is not None:
+			distance = ((self.prevx - x)**2) + ((self.prevy - y) ** 2)
+			distance = distance ** 0.5
+			distance = max(self.minwidth, distance)
+			distance = min(self.maxwidth, distance)
+			self.canvas.create_line(self.prevx, self.prevy, x, y, width=distance, fill='#fff')
+		self.prevx = x
+		self.prevy = y
+
+tkd = TKDraw()
+tkd.mainloop()