#!/usr/bin/env python
# -*- coding: utf-8 -*-

# learn <<Problem Solving with Algorithms and Data Structures>>
# Release 3.0
# chengang882 @ 2016-12-20
# 它可以将常见的中缀表达式转换成后缀表达式，并计算这个表达示的值
# Completed implementation of a queue ADT
import random

#数据结构
class Queue(object):
    def __init__(self):
        self.items = []

    def is_empty(self):
        return self.items == []

    def enqueue(self, item):
        self.items.insert(0, item)

    def dequeue(self):
        return self.items.pop()

    def peek(self):
        return self.items[len(self.items)-1]

    def size(self):
        return len(self.items)

    def show(self):
        return self.items

#模拟打印机任务的空忙算法
class Printer(object):
    def __init__(self, ppm):
        self.page_rate = ppm
        self.current_task = None
        self.time_remaining = 0

    def tick(self):
        if self.current_task != None:
            self.time_remaining -= 1
            if self.time_remaining <= 0:
                self.current_task = None
    def busy(self):
        if self.current_task != None:
            return True
        else:
            return False

    def start_next(self, new_task):
        self.current_task = new_task
        self.time_remaining = new_task.get_pages() * 60 / self.page_rate

class Task(object):
    def __init__(self, time):
        self.timestamp = time
        self.pages = random.randrange(1, 21)

    def get_stamp(self):
        return self.timestamp

    def get_pages(self):
        return self.pages

    def wait_time(self, current_time):
        return current_time - self.timestamp

def simulation(num_seconds, pages_per_minute):

    lab_printer = Printer(pages_per_minute)
    print_queue = Queue()
    waiting_times = []

    for current_second in range(num_seconds):
        if new_print_task():
            task = Task(current_second)
            print_queue.enqueue(task)

        if (not lab_printer.busy()) and (not print_queue.is_empty()):
            next_task = print_queue.dequeue()
            waiting_times.append(next_task.wait_time(current_second))
            lab_printer.start_next(next_task)
        lab_printer.tick()
    average_wait = sum(waiting_times) / len(waiting_times)
    print("Average Wait %6.2f secs %3d task remainging."
          %(average_wait, print_queue.size()))

def new_print_task():
    num = random.randrange(1, 181)
    if num == 180:
        return True
    else:
        return False

#实现hot_potato游戏的算法
def hot_potato(name_list, num):
    sim_queue = Queue()
    for name in name_list:
        sim_queue.enqueue(name)
    while sim_queue.size() > 1:
        for i in range(num):
            sim_queue.enqueue(sim_queue.dequeue())
        sim_queue.dequeue()
    return sim_queue.dequeue()

if __name__ == "__main__":
    print(hot_potato(['Bill', 'David', 'Susan', 'Sky', 'Brad', 'July'], 10))
    for i in range(10):
        simulation(3600, 5)