Lib/turtledemo/sorting_animate.py - platform/external/python/cpython3 - Gitiles

 #!/usr/bin/env python3
 """

          sorting_animation.py

 A minimal sorting algorithm animation:
 Sorts a shelf of 10 blocks using insertion
 sort, selection sort and quicksort.

 Shelfs are implemented using builtin lists.

 Blocks are turtles with shape "square", but
 stretched to rectangles by shapesize()
  ---------------------------------------
        To exit press space button
  ---------------------------------------
 """
 from turtle import *
 import random


 class Block(Turtle):

     def __init__(self, size):
         self.size = size
         Turtle.__init__(self, shape="square", visible=False)
         self.pu()
         self.shapesize(size * 1.5, 1.5, 2) # square-->rectangle
         self.fillcolor("black")
         self.st()

     def glow(self):
         self.fillcolor("red")

     def unglow(self):
         self.fillcolor("black")

     def __repr__(self):
         return "Block size: {0}".format(self.size)


 class Shelf(list):

     def __init__(self, y):
         "create a shelf. y is y-position of first block"
         self.y = y
         self.x = -150

     def push(self, d):
         width, _, _ = d.shapesize()
         # align blocks by the bottom edge
         y_offset = width / 2 * 20
         d.sety(self.y + y_offset)
         d.setx(self.x + 34 * len(self))
         self.append(d)

     def _close_gap_from_i(self, i):
         for b in self[i:]:
             xpos, _ = b.pos()
             b.setx(xpos - 34)

     def _open_gap_from_i(self, i):
         for b in self[i:]:
             xpos, _ = b.pos()
             b.setx(xpos + 34)

     def pop(self, key):
         b = list.pop(self, key)
         b.glow()
         b.sety(200)
         self._close_gap_from_i(key)
         return b

     def insert(self, key, b):
         self._open_gap_from_i(key)
         list.insert(self, key, b)
         b.setx(self.x + 34 * key)
         width, _, _ = b.shapesize()
         # align blocks by the bottom edge
         y_offset = width / 2 * 20
         b.sety(self.y + y_offset)
         b.unglow()

 def isort(shelf):
     length = len(shelf)
     for i in range(1, length):
         hole = i
         while hole > 0 and shelf[i].size < shelf[hole - 1].size:
             hole = hole - 1
         shelf.insert(hole, shelf.pop(i))
     return

 def ssort(shelf):
     length = len(shelf)
     for j in range(0, length - 1):
         imin = j
         for i in range(j + 1, length):
             if shelf[i].size < shelf[imin].size:
                 imin = i
         if imin != j:
             shelf.insert(j, shelf.pop(imin))

 def partition(shelf, left, right, pivot_index):
     pivot = shelf[pivot_index]
     shelf.insert(right, shelf.pop(pivot_index))
     store_index = left
     for i in range(left, right): # range is non-inclusive of ending value
         if shelf[i].size < pivot.size:
             shelf.insert(store_index, shelf.pop(i))
             store_index = store_index + 1
     shelf.insert(store_index, shelf.pop(right)) # move pivot to correct position
     return store_index

 def qsort(shelf, left, right):
     if left < right:
         pivot_index = left
         pivot_new_index = partition(shelf, left, right, pivot_index)
         qsort(shelf, left, pivot_new_index - 1)
         qsort(shelf, pivot_new_index + 1, right)

 def randomize():
     disable_keys()
     clear()
     target = list(range(10))
     random.shuffle(target)
     for i, t in enumerate(target):
         for j in range(i, len(s)):
             if s[j].size == t + 1:
                 s.insert(i, s.pop(j))
     show_text(instructions1)
     show_text(instructions2, line=1)
     enable_keys()

 def show_text(text, line=0):
     line = 20 * line
     goto(0,-250 - line)
     write(text, align="center", font=("Courier", 16, "bold"))

 def start_ssort():
     disable_keys()
     clear()
     show_text("Selection Sort")
     ssort(s)
     clear()
     show_text(instructions1)
     show_text(instructions2, line=1)
     enable_keys()

 def start_isort():
     disable_keys()
     clear()
     show_text("Insertion Sort")
     isort(s)
     clear()
     show_text(instructions1)
     show_text(instructions2, line=1)
     enable_keys()

 def start_qsort():
     disable_keys()
     clear()
     show_text("Quicksort")
     qsort(s, 0, len(s) - 1)
     clear()
     show_text(instructions1)
     show_text(instructions2, line=1)
     enable_keys()

 def init_shelf():
     global s
     s = Shelf(-200)
     vals = (4, 2, 8, 9, 1, 5, 10, 3, 7, 6)
     for i in vals:
         s.push(Block(i))

 def disable_keys():
     onkey(None, "s")
     onkey(None, "i")
     onkey(None, "q")
     onkey(None, "r")

 def enable_keys():
     onkey(start_isort, "i")
     onkey(start_ssort, "s")
     onkey(start_qsort, "q")
     onkey(randomize, "r")
     onkey(bye, "space")

 def main():
     getscreen().clearscreen()
     ht(); penup()
     init_shelf()
     show_text(instructions1)
     show_text(instructions2, line=1)
     enable_keys()
     listen()
     return "EVENTLOOP"

 instructions1 = "press i for insertion sort, s for selection sort, q for quicksort"
 instructions2 = "spacebar to quit, r to randomize"

 if __name__=="__main__":
     msg = main()
     mainloop()
	#!/usr/bin/env python3
	"""

	sorting_animation.py

	A minimal sorting algorithm animation:
	Sorts a shelf of 10 blocks using insertion
	sort, selection sort and quicksort.

	Shelfs are implemented using builtin lists.

	Blocks are turtles with shape "square", but
	stretched to rectangles by shapesize()
	---------------------------------------
	To exit press space button
	---------------------------------------
	"""
	from turtle import *
	import random


	class Block(Turtle):

	def __init__(self, size):
	self.size = size
	Turtle.__init__(self, shape="square", visible=False)
	self.pu()
	self.shapesize(size * 1.5, 1.5, 2) # square-->rectangle
	self.fillcolor("black")
	self.st()

	def glow(self):
	self.fillcolor("red")

	def unglow(self):
	self.fillcolor("black")

	def __repr__(self):
	return "Block size: {0}".format(self.size)


	class Shelf(list):

	def __init__(self, y):
	"create a shelf. y is y-position of first block"
	self.y = y
	self.x = -150

	def push(self, d):
	width, _, _ = d.shapesize()
	# align blocks by the bottom edge
	y_offset = width / 2 * 20
	d.sety(self.y + y_offset)
	d.setx(self.x + 34 * len(self))
	self.append(d)

	def _close_gap_from_i(self, i):
	for b in self[i:]:
	xpos, _ = b.pos()
	b.setx(xpos - 34)

	def _open_gap_from_i(self, i):
	for b in self[i:]:
	xpos, _ = b.pos()
	b.setx(xpos + 34)

	def pop(self, key):
	b = list.pop(self, key)
	b.glow()
	b.sety(200)
	self._close_gap_from_i(key)
	return b

	def insert(self, key, b):
	self._open_gap_from_i(key)
	list.insert(self, key, b)
	b.setx(self.x + 34 * key)
	width, _, _ = b.shapesize()
	# align blocks by the bottom edge
	y_offset = width / 2 * 20
	b.sety(self.y + y_offset)
	b.unglow()

	def isort(shelf):
	length = len(shelf)
	for i in range(1, length):
	hole = i
	while hole > 0 and shelf[i].size < shelf[hole - 1].size:
	hole = hole - 1
	shelf.insert(hole, shelf.pop(i))
	return

	def ssort(shelf):
	length = len(shelf)
	for j in range(0, length - 1):
	imin = j
	for i in range(j + 1, length):
	if shelf[i].size < shelf[imin].size:
	imin = i
	if imin != j:
	shelf.insert(j, shelf.pop(imin))

	def partition(shelf, left, right, pivot_index):
	pivot = shelf[pivot_index]
	shelf.insert(right, shelf.pop(pivot_index))
	store_index = left
	for i in range(left, right): # range is non-inclusive of ending value
	if shelf[i].size < pivot.size:
	shelf.insert(store_index, shelf.pop(i))
	store_index = store_index + 1
	shelf.insert(store_index, shelf.pop(right)) # move pivot to correct position
	return store_index

	def qsort(shelf, left, right):
	if left < right:
	pivot_index = left
	pivot_new_index = partition(shelf, left, right, pivot_index)
	qsort(shelf, left, pivot_new_index - 1)
	qsort(shelf, pivot_new_index + 1, right)

	def randomize():
	disable_keys()
	clear()
	target = list(range(10))
	random.shuffle(target)
	for i, t in enumerate(target):
	for j in range(i, len(s)):
	if s[j].size == t + 1:
	s.insert(i, s.pop(j))
	show_text(instructions1)
	show_text(instructions2, line=1)
	enable_keys()

	def show_text(text, line=0):
	line = 20 * line
	goto(0,-250 - line)
	write(text, align="center", font=("Courier", 16, "bold"))

	def start_ssort():
	disable_keys()
	clear()
	show_text("Selection Sort")
	ssort(s)
	clear()
	show_text(instructions1)
	show_text(instructions2, line=1)
	enable_keys()

	def start_isort():
	disable_keys()
	clear()
	show_text("Insertion Sort")
	isort(s)
	clear()
	show_text(instructions1)
	show_text(instructions2, line=1)
	enable_keys()

	def start_qsort():
	disable_keys()
	clear()
	show_text("Quicksort")
	qsort(s, 0, len(s) - 1)
	clear()
	show_text(instructions1)
	show_text(instructions2, line=1)
	enable_keys()

	def init_shelf():
	global s
	s = Shelf(-200)
	vals = (4, 2, 8, 9, 1, 5, 10, 3, 7, 6)
	for i in vals:
	s.push(Block(i))

	def disable_keys():
	onkey(None, "s")
	onkey(None, "i")
	onkey(None, "q")
	onkey(None, "r")

	def enable_keys():
	onkey(start_isort, "i")
	onkey(start_ssort, "s")
	onkey(start_qsort, "q")
	onkey(randomize, "r")
	onkey(bye, "space")

	def main():
	getscreen().clearscreen()
	ht(); penup()
	init_shelf()
	show_text(instructions1)
	show_text(instructions2, line=1)
	enable_keys()
	listen()
	return "EVENTLOOP"

	instructions1 = "press i for insertion sort, s for selection sort, q for quicksort"
	instructions2 = "spacebar to quit, r to randomize"

	if __name__=="__main__":
	msg = main()
	mainloop()