实验1
task1_1
1 # print输出的几种用法 2 print('hey, u') 3 print('hey', ' u') 4 x,y,z = 1,2,3 5 print(x, y, z) 6 print('x = %d, y = %d, z = %d'%(x,y,z)) 7 print('x = {}, y = {}, z = {}'.format(x,y,z)) 8 print(f'x = {x}, y = {y}, z = {z}') 9 print(y) 10 print(z) 11 print(x, end=' ') 12 # 输出结束后,不换行;通过end指定数据项之间的分隔符 13 print(y, end=' ') 14 print(z) 15 16 '''总结print输出方法: 17 1.print('输出内容') 18 2.print('对象1 = %d,对象2 = %d'%(对象1,对象2)) 19 3.print('对象1 = '{},对象2 = {}'.format(对象1,对象2)) 20 4.print('对象1 = f'{对象1},对象2 = {对象2}') 21 '''
task1_2
1 # 使用字符串的format()方法,对输出数据项进行格式化 2 x1, y1 = 1.2, 3.57 3 x2, y2 = 2.26, 8.7 4 print('{:-^40}'.format('输出1')) 5 print('x1 = {}, y1 = {}'.format(x1, y1)) 6 print('x2 = {}, y2 = {}'.format(x2, y2)) 7 print('{:-^40}'.format('输出2')) 8 print('x1 = {:.1f}, y1 = {:.1f}'.format(x1, y1)) 9 print('x2 = {:.1f}, y2 = {:.1f}'.format(x2, y2)) 10 print('{:-^40}'.format('输出3')) 11 print('x1 = {:<15.1f}, y1 = {:<15.1f}'.format(x1, y1)) 12 print('x2 = {:<15.1f}, y2 = {:<15.1f}'.format(x2, y2)) 13 print('{:-^40}'.format('输出4')) 14 print('x1 = {:>15.1f}, y1 = {:>15.1f}'.format(x1, y1)) 15 print('x2 = {:>15.1f}, y2 = {:>15.1f}'.format(x2, y2)) 16 ''' print('{:-^40}'.format('标题'))''' 17 '''print('x = {:.1f}'.format(x)) x 保留一位小数''' 18 '''print('x = {:>15}'.format(x))'''
task1_3
1 # 使用f-string方式输出数据并控制格式 2 name1, age1 = 'Bill', 19 3 name2, age2 = 'Hellen', 18 4 title = 'Personnel Information' 5 print(f'{title:=^40}') 6 # 输出效果与 print('{:=^40}'.format(title))一样 7 print(f'name: {name1:10}, age: {age1:3}') 8 # 10和3分别指定数据项输出宽度 9 print(f'name: {name2:10}, age: {age2:3}') 10 print(40*'=')
task2_1
1 # 内置函数eval() 2 # 功能:把字符串转换为python表达式 3 # 理解:相当于把圆括号中的内容,两侧引号去掉 4 r1 = eval('1 + 2') # 相当于r1 = 1 + 2 5 print(type(r1), r1) 6 r2 = eval('[1, 6, 7.5]') #相当于r2 = [1, 6, 7.5] 7 print(type(r2), r2) 8 r3 = eval('"python"') # 相当于r3 = "python" 9 print(type(r3), r3) 10 r4 = eval('7, 42') # 相当于r4 = 7, 43 11 print(type(r4), r4) 12 '''总结:eval函数用于去掉引号,r1 = eval(x1) 13 print(type(x1),x1) 14 打印出来是<class '数据类型'>(x1去掉两侧引号)'''
task2_2
1 # 组合使用内置函数eval()和input() 2 x, y = eval(input('Enter two oprands: ')) 3 # 输入的两个操作数之间用逗号分隔(英文半角输入法下的逗号) 4 5 ans = x + y 6 print(f'{x} + {y} = {ans}') 7 print(f'{type(x)} + {type(y)} = {type(ans)}')
1 # 浮点数简单运算 2 ans1 = 0.1 + 0.2 3 print(f'0.1 + 0.2 = {ans1}') 4 from decimal import Decimal 5 ans2 = Decimal('0.1') + Decimal('0.2') 6 print(f'0.1 + 0.2 = {ans2}')
1 # 字符编码相关 2 # chr()返回unicode编码对应的字符 3 print(chr(0x1f600), end = " ") 4 print(chr(0x1f601), end = " ") 5 print(chr(0x1f602), end = " ") 6 print(chr(0x1f603), end = " ") 7 print(chr(0x1f604)) 8 print(chr(10000), end=" ") 9 print(chr(0x025b), end=" ") 10 print(chr(0x2708), end=" ") 11 print(chr(0x00A5), end=" ") 12 print(chr(0x266b)) 13 # ord()返回字符的unicode编码 14 print(ord('a'), end = " ") 15 print(ord('b'), end = " ") 16 print(ord('c')) 17 print(ord('A'), end = " ") 18 print(ord('B'), end = " ") 19 print(ord('C')) 20 print(ord('0'), end = " ") 21 print(ord('1'), end = " ") 22 print(ord('2'))
task5_1
1 # 简单的数学计算 2 from math import sqrt 3 n = float(input('输入一个数:')) 4 # python中计算开平方的两种方式 5 ans1 = sqrt(n) 6 ans2 = n**0.5 7 print('%.2f的平方根是: %.2f' %(n, ans1)) # 以传统c风格方式输出 8 print('{:.2f}的平方根是: {:.2f}'.format(n, ans2)) # 使用字符串format()方法输出 9 print(f'{n:.2f}的平方根是: {ans2:.2f}') # 使用f-string方式输出
task5_2
1 # 神奇的pi, 与大饼 2 from math import pi 3 text = ''' 4 好奇心是人的天性。 5 理想情况下,学习新东西是让人愉快的事。 6 但学校里的学习似乎有点像苦役。 7 有时候,需要画一个大饼,每次尝试学一些新鲜的,才会每天变得更好一点点。 8 ''' 9 print(text) 10 r = float(input('给学习画一个大饼,大饼要做的很大,半径要这么大: ')) 11 circle = 2*pi*r 12 print(f'绕起来,大饼的圆周有这么长, {circle}, 够不够激发你探索未知的动力...')
task6
1 x = int(input('输入一个数')) 2 y = x **365 3 print(f'{x}的365次方: ',y)
task7
1 p = 1.038 2 c = 3.7 3 K = 5.4*10-3 4 M = 67 5 Tw = 100 6 Ty = 70 7 8 from math import pi 9 import math 10 11 T0 = int(input('输入温度')) 12 13 t = (M**(2/3)*c*p**(1/3))*math.log(0.76*(T0-Tw)/(Ty-Tw))/(K*pi**2*(4*pi/3)**(2/3)) 14 print('T0 = ',T0,'℃','t = ',int(t*60),'分',round((t*60-int(t*60))*60,2),'秒')
总结:我学会了使用print函数,eval函数,学会了比较浮点数,运用decimal函数,chr函数和ord函数,虽然过程很痛苦,但是运行成功那一刻感觉很值得。
