选自GitHub-jack···(点击跳转)
提示:华氏温度到摄氏温度的转换公式为: C = ( F − 32 ) ÷ 1.8 C=(F - 32) \div 1.8 C=(F−32)÷1.8。
参考答案:
f = float(input('请输入华氏温度: '))
c = (f - 32) / 1.8
print('%.1f华氏度 = %.1f摄氏度' % (f, c))
参考答案:
radius = float(input('请输入圆的半径: '))
perimeter = 2 * 3.1416 * radius
area = 3.1416 * radius * radius
print('周长: %.2f' % perimeter)
print('面积: %.2f' % area)
参考答案:
year = int(input('请输入年份: '))
# 如果代码太长写成一行不便于阅读 可以使用\对代码进行折行
is_leap = year % 4 == 0 and year % 100 != 0 or \
year % 400 == 0
print(is_leap)
参考答案:
""
value = float(input('请输入长度: '))
unit = input('请输入单位: ')
if unit == 'in' or unit == '英寸':
print('%f英寸 = %f厘米' % (value, value * 2.54))
elif unit == 'cm' or unit == '厘米':
print('%f厘米 = %f英寸' % (value, value / 2.54))
else:
print('请输入有效的单位')
要求:如果输入的成绩在90分以上(含90分)输出A;80分-90分(不含90分)输出B;70分-80分(不含80分)输出C;60分-70分(不含70分)输出D;60分以下输出E。
参考答案:
score = float(input('请输入成绩: '))
if score >= 90:
grade = 'A'
elif score >= 80:
grade = 'B'
elif score >= 70:
grade = 'C'
elif score >= 60:
grade = 'D'
else:
grade = 'E'
print('对应的等级是:', grade)
参考答案:
a = float(input('a = '))
b = float(input('b = '))
c = float(input('c = '))
if a + b > c and a + c > b and b + c > a:
print('周长: %f' % (a + b + c))
p = (a + b + c) / 2
area = (p * (p - a) * (p - b) * (p - c)) ** 0.5
print('面积: %f' % (area))
else:
print('不能构成三角形')
提示:素数指的是只能被1和自身整除的大于1的整数。
参考答案:
from math import sqrt
num = int(input('请输入一个正整数: '))
end = int(sqrt(num))
is_prime = True
for x in range(2, end + 1):
if num % x == 0:
is_prime = False
break
if is_prime and num != 1:
print('%d是素数' % num)
else:
print('%d不是素数' % num)
提示:两个数的最大公约数是两个数的公共因子中最大的那个数;两个数的最小公倍数则是能够同时被两个数整除的最小的那个数。
参考答案:
x = int(input('x = '))
y = int(input('y = '))
# 如果x大于y就交换x和y的值
if x > y:
# 通过下面的操作将y的值赋给x, 将x的值赋给y
x, y = y, x
# 从两个数中较的数开始做递减的循环
for factor in range(x, 0, -1):
if x % factor == 0 and y % factor == 0:
print('%d和%d的最大公约数是%d' % (x, y, factor))
print('%d和%d的最小公倍数是%d' % (x, y, x * y // factor))
break
*
**
***
****
*****
*
**
***
****
*****
*
***
*****
*******
*********
参考答案:
row = int(input('请输入行数: '))
for i in range(row):
for _ in range(i + 1):
print('*', end='')
print()
for i in range(row):
for j in range(row):
if j < row - i - 1:
print(' ', end='')
else:
print('*', end='')
print()
for i in range(row):
for _ in range(row - i - 1):
print(' ', end='')
for _ in range(2 * i + 1):
print('*', end='')
print()
说明:水仙花数也被称为超完全数字不变数、自恋数、自幂数、阿姆斯特朗数,它是一个3位数,该数字每个位上数字的立方之和正好等于它本身,例如: 1 3 + 5 3 + 3 3 = 153 1^3 + 5^3+ 3^3=153 13+53+33=153。
for num in range(100, 1000):
low = num % 10
mid = num // 10 % 10
high = num // 100
if num == low ** 3 + mid ** 3 + high ** 3:
print(num)
参考答案:
def gcd(x, y):
"""求最大公约数"""
(x, y) = (y, x) if x > y else (x, y)
for factor in range(x, 0, -1):
if x % factor == 0 and y % factor == 0:
return factor
def lcm(x, y):
"""求最小公倍数"""
return x * y // gcd(x, y)
参考答案:
def is_palindrome(num):
"""判断一个数是不是回文数"""
temp = num
total = 0
while temp > 0:
total = total * 10 + temp % 10
temp //= 10
return total == num
参考答案:
def is_prime(num):
"""判断一个数是不是素数"""
for factor in range(2, int(num ** 0.5) + 1):
if num % factor == 0:
return False
return True if num != 1 else False
参考答案:
if __name__ == '__main__':
num = int(input('请输入正整数: '))
if is_palindrome(num) and is_prime(num):
print('%d是回文素数' % num)
注意:通过上面的程序可以看出,当我们将代码中重复出现的和相对独立的功能抽取成函数后,我们可以组合使用这些函数来解决更为复杂的问题,这也是我们为什么要定义和使用函数的一个非常重要的原因。
参考答案:
import os
import time
def main():
content = '北京欢迎你为你开天辟地…………'
while True:
# 清理屏幕上的输出
os.system('cls') # os.system('clear')
print(content)
# 休眠200毫秒
time.sleep(0.2)
content = content[1:] + content[0]
if __name__ == '__main__':
main()
参考答案:
import random
def generate_code(code_len=4):
"""
生成指定长度的验证码
:param code_len: 验证码的长度(默认4个字符)
:return: 由大小写英文字母和数字构成的随机验证码
"""
all_chars = '0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ'
last_pos = len(all_chars) - 1
code = ''
for _ in range(code_len):
index = random.randint(0, last_pos)
code += all_chars[index]
return code
参考答案:
def get_suffix(filename, has_dot=False):
"""
获取文件名的后缀名
:param filename: 文件名
:param has_dot: 返回的后缀名是否需要带点
:return: 文件的后缀名
"""
pos = filename.rfind('.')
if 0 < pos < len(filename) - 1:
index = pos if has_dot else pos + 1
return filename[index:]
else:
return ''
参考答案:
def max2(x):
m1, m2 = (x[0], x[1]) if x[0] > x[1] else (x[1], x[0])
for index in range(2, len(x)):
if x[index] > m1:
m2 = m1
m1 = x[index]
elif x[index] > m2:
m2 = x[index]
return m1, m2
参考答案:
def is_leap_year(year):
"""
判断指定的年份是不是闰年
:param year: 年份
:return: 闰年返回True平年返回False
"""
return year % 4 == 0 and year % 100 != 0 or year % 400 == 0
def which_day(year, month, date):
"""
计算传入的日期是这一年的第几天
:param year: 年
:param month: 月
:param date: 日
:return: 第几天
"""
days_of_month = [
[31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31],
[31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31]
][is_leap_year(year)]
total = 0
for index in range(month - 1):
total += days_of_month[index]
return total + date
def main():
print(which_day(1980, 11, 28))
print(which_day(1981, 12, 31))
print(which_day(2018, 1, 1))
print(which_day(2016, 3, 1))
if __name__ == '__main__':
main()
参考答案:
def main():
num = int(input('Number of rows: '))
yh = [[]] * num
for row in range(len(yh)):
yh[row] = [None] * (row + 1)
for col in range(len(yh[row])):
if col == 0 or col == row:
yh[row][col] = 1
else:
yh[row][col] = yh[row - 1][col] + yh[row - 1][col - 1]
print(yh[row][col], end='\t')
print()
if __name__ == '__main__':
main()
参考答案:
from time import sleep
class Clock(object):
"""数字时钟"""
def __init__(self, hour=0, minute=0, second=0):
"""初始化方法
:param hour: 时
:param minute: 分
:param second: 秒
"""
self._hour = hour
self._minute = minute
self._second = second
def run(self):
"""走字"""
self._second += 1
if self._second == 60:
self._second = 0
self._minute += 1
if self._minute == 60:
self._minute = 0
self._hour += 1
if self._hour == 24:
self._hour = 0
def show(self):
"""显示时间"""
return '%02d:%02d:%02d' % \
(self._hour, self._minute, self._second)
def main():
clock = Clock(23, 59, 58)
while True:
print(clock.show())
sleep(1)
clock.run()
if __name__ == '__main__':
main()
参考答案:
from math import sqrt
class Point(object):
def __init__(self, x=0, y=0):
"""初始化方法
:param x: 横坐标
:param y: 纵坐标
"""
self.x = x
self.y = y
def move_to(self, x, y):
"""移动到指定位置
:param x: 新的横坐标
"param y: 新的纵坐标
"""
self.x = x
self.y = y
def move_by(self, dx, dy):
"""移动指定的增量
:param dx: 横坐标的增量
"param dy: 纵坐标的增量
"""
self.x += dx
self.y += dy
def distance_to(self, other):
"""计算与另一个点的距离
:param other: 另一个点
"""
dx = self.x - other.x
dy = self.y - other.y
return sqrt(dx ** 2 + dy ** 2)
def __str__(self):
return '(%s, %s)' % (str(self.x), str(self.y))
def main():
p1 = Point(3, 5)
p2 = Point()
print(p1)
print(p2)
p2.move_by(-1, 2)
print(p2)
print(p1.distance_to(p2))
if __name__ == '__main__':
main()
from abc import ABCMeta, abstractmethod
from random import randint, randrange
class Fighter(object, metaclass=ABCMeta):
"""战斗者"""
# 通过__slots__魔法限定对象可以绑定的成员变量
__slots__ = ('_name', '_hp')
def __init__(self, name, hp):
"""初始化方法
:param name: 名字
:param hp: 生命值
"""
self._name = name
self._hp = hp
@property
def name(self):
return self._name
@property
def hp(self):
return self._hp
@hp.setter
def hp(self, hp):
self._hp = hp if hp >= 0 else 0
@property
def alive(self):
return self._hp > 0
@abstractmethod
def attack(self, other):
"""攻击
:param other: 被攻击的对象
"""
pass
class Ultraman(Fighter):
"""奥特曼"""
__slots__ = ('_name', '_hp', '_mp')
def __init__(self, name, hp, mp):
"""初始化方法
:param name: 名字
:param hp: 生命值
:param mp: 魔法值
"""
super().__init__(name, hp)
self._mp = mp
def attack(self, other):
other.hp -= randint(15, 25)
def huge_attack(self, other):
"""究极必杀技(打掉对方至少50点或四分之三的血)
:param other: 被攻击的对象
:return: 使用成功返回True否则返回False
"""
if self._mp >= 50:
self._mp -= 50
injury = other.hp * 3 // 4
injury = injury if injury >= 50 else 50
other.hp -= injury
return True
else:
self.attack(other)
return False
def magic_attack(self, others):
"""魔法攻击
:param others: 被攻击的群体
:return: 使用魔法成功返回True否则返回False
"""
if self._mp >= 20:
self._mp -= 20
for temp in others:
if temp.alive:
temp.hp -= randint(10, 15)
return True
else:
return False
def resume(self):
"""恢复魔法值"""
incr_point = randint(1, 10)
self._mp += incr_point
return incr_point
def __str__(self):
return '~~~%s奥特曼~~~\n' % self._name + \
'生命值: %d\n' % self._hp + \
'魔法值: %d\n' % self._mp
class Monster(Fighter):
"""小怪兽"""
__slots__ = ('_name', '_hp')
def attack(self, other):
other.hp -= randint(10, 20)
def __str__(self):
return '~~~%s小怪兽~~~\n' % self._name + \
'生命值: %d\n' % self._hp
def is_any_alive(monsters):
"""判断有没有小怪兽是活着的"""
for monster in monsters:
if monster.alive > 0:
return True
return False
def select_alive_one(monsters):
"""选中一只活着的小怪兽"""
monsters_len = len(monsters)
while True:
index = randrange(monsters_len)
monster = monsters[index]
if monster.alive > 0:
return monster
def display_info(ultraman, monsters):
"""显示奥特曼和小怪兽的信息"""
print(ultraman)
for monster in monsters:
print(monster, end='')
def main():
u = Ultraman('骆昊', 1000, 120)
m1 = Monster('狄仁杰', 250)
m2 = Monster('白元芳', 500)
m3 = Monster('王大锤', 750)
ms = [m1, m2, m3]
fight_round = 1
while u.alive and is_any_alive(ms):
print('========第%02d回合========' % fight_round)
m = select_alive_one(ms) # 选中一只小怪兽
skill = randint(1, 10) # 通过随机数选择使用哪种技能
if skill <= 6: # 60%的概率使用普通攻击
print('%s使用普通攻击打了%s.' % (u.name, m.name))
u.attack(m)
print('%s的魔法值恢复了%d点.' % (u.name, u.resume()))
elif skill <= 9: # 30%的概率使用魔法攻击(可能因魔法值不足而失败)
if u.magic_attack(ms):
print('%s使用了魔法攻击.' % u.name)
else:
print('%s使用魔法失败.' % u.name)
else: # 10%的概率使用究极必杀技(如果魔法值不足则使用普通攻击)
if u.huge_attack(m):
print('%s使用究极必杀技虐了%s.' % (u.name, m.name))
else:
print('%s使用普通攻击打了%s.' % (u.name, m.name))
print('%s的魔法值恢复了%d点.' % (u.name, u.resume()))
if m.alive > 0: # 如果选中的小怪兽没有死就回击奥特曼
print('%s回击了%s.' % (m.name, u.name))
m.attack(u)
display_info(u, ms) # 每个回合结束后显示奥特曼和小怪兽的信息
fight_round += 1
print('\n========战斗结束!========\n')
if u.alive > 0:
print('%s奥特曼胜利!' % u.name)
else:
print('小怪兽胜利!')
if __name__ == '__main__':
main()
import random
class Card(object):
"""一张牌"""
def __init__(self, suite, face):
self._suite = suite
self._face = face
@property
def face(self):
return self._face
@property
def suite(self):
return self._suite
def __str__(self):
if self._face == 1:
face_str = 'A'
elif self._face == 11:
face_str = 'J'
elif self._face == 12:
face_str = 'Q'
elif self._face == 13:
face_str = 'K'
else:
face_str = str(self._face)
return '%s%s' % (self._suite, face_str)
def __repr__(self):
return self.__str__()
class Poker(object):
"""一副牌"""
def __init__(self):
self._cards = [Card(suite, face)
for suite in '♠♥♣♦'
for face in range(1, 14)]
self._current = 0
@property
def cards(self):
return self._cards
def shuffle(self):
"""洗牌(随机乱序)"""
self._current = 0
random.shuffle(self._cards)
@property
def next(self):
"""发牌"""
card = self._cards[self._current]
self._current += 1
return card
@property
def has_next(self):
"""还有没有牌"""
return self._current < len(self._cards)
class Player(object):
"""玩家"""
def __init__(self, name):
self._name = name
self._cards_on_hand = []
@property
def name(self):
return self._name
@property
def cards_on_hand(self):
return self._cards_on_hand
def get(self, card):
"""摸牌"""
self._cards_on_hand.append(card)
def arrange(self, card_key):
"""玩家整理手上的牌"""
self._cards_on_hand.sort(key=card_key)
# 排序规则-先根据花色再根据点数排序
def get_key(card):
return (card.suite, card.face)
def main():
p = Poker()
p.shuffle()
players = [Player('东邪'), Player('西毒'), Player('南帝'), Player('北丐')]
for _ in range(13):
for player in players:
player.get(p.next)
for player in players:
print(player.name + ':', end=' ')
player.arrange(get_key)
print(player.cards_on_hand)
if __name__ == '__main__':
main()
说明: 大家可以自己尝试在上面代码的基础上写一个简单的扑克游戏,例如21点(Black Jack),游戏的规则可以自己在网上找一找。
"""
某公司有三种类型的员工 分别是部门经理、程序员和销售员
需要设计一个工资结算系统 根据提供的员工信息来计算月薪
部门经理的月薪是每月固定15000元
程序员的月薪按本月工作时间计算 每小时150元
销售员的月薪是1200元的底薪加上销售额5%的提成
"""
from abc import ABCMeta, abstractmethod
class Employee(object, metaclass=ABCMeta):
"""员工"""
def __init__(self, name):
"""
初始化方法
:param name: 姓名
"""
self._name = name
@property
def name(self):
return self._name
@abstractmethod
def get_salary(self):
"""
获得月薪
:return: 月薪
"""
pass
class Manager(Employee):
"""部门经理"""
def get_salary(self):
return 15000.0
class Programmer(Employee):
"""程序员"""
def __init__(self, name, working_hour=0):
super().__init__(name)
self._working_hour = working_hour
@property
def working_hour(self):
return self._working_hour
@working_hour.setter
def working_hour(self, working_hour):
self._working_hour = working_hour if working_hour > 0 else 0
def get_salary(self):
return 150.0 * self._working_hour
class Salesman(Employee):
"""销售员"""
def __init__(self, name, sales=0):
super().__init__(name)
self._sales = sales
@property
def sales(self):
return self._sales
@sales.setter
def sales(self, sales):
self._sales = sales if sales > 0 else 0
def get_salary(self):
return 1200.0 + self._sales * 0.05
def main():
emps = [
Manager('刘备'), Programmer('诸葛亮'),
Manager('曹操'), Salesman('荀彧'),
Salesman('吕布'), Programmer('张辽'),
Programmer('赵云')
]
for emp in emps:
if isinstance(emp, Programmer):
emp.working_hour = int(input('请输入%s本月工作时间: ' % emp.name))
elif isinstance(emp, Salesman):
emp.sales = float(input('请输入%s本月销售额: ' % emp.name))
# 同样是接收get_salary这个消息但是不同的员工表现出了不同的行为(多态)
print('%s本月工资为: ¥%s元' %
(emp.name, emp.get_salary()))
if __name__ == '__main__':
main()
虽然到Day9,很多东西都没办法吃透,希望坚持学下去能有突破现阶段的瓶颈时期。
感谢学习资料···
❤