Four arithmetic operations done with Python: arithmetic operation exercise program (plus, subtraction, multiplication, division) and python operation
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The math calculation exercise program for xiaobao using Python (four arithmetic operations added in January 2015 )!
The oral computing game for xiaobao:
# The math arithmetic exercise program that I used for Xiao Bao using Python (four arithmetic operations added in January 2015 )! # The Script game for xiaobao: import string import random input = 11 nums = 10 num = 0 righ1t = 0 # score # flagwrong = 0 # print e [1; 34 mThis text is bold blue. e [0 m print a total of % d questions: % (nums) print e [33; 45; 1 mBold yellow on magenta. e [0 m; while True: flagwrong = 0 if num> = nums: print (once in total) Correct % d path/% d path question % (righ1t, nums), if righ1t> = 10: print! 100 points !!! Elif righ1t> = 8: print you are good, 80 points or more !!! Else: print. Come on! Break; elif num = num + 1 x = random. randint (1,100) # number less than 100 y = random. randint (1, 10) print symbol = random. randint () # symbol = 3 # test division # if 0 = symbol: # Addition # Inner Loop-print question % d: % d + % d = % (num, x, y), input = raw_input () intp = string. atoi (input) print intp while intp! = (X + y): print is incorrect! % D + % d is not equal to % d % (x, y, intp) flagwrong = 1; # If you miss one time, you cannot increase the score (score). print and calculate it again, question % d: % d + % d = % (num, x, y), input = raw_input () intp = string. atoi (input) if intp = x + y: break; continue; if intp = (x + y): print is correct! % D + % d is equal to % d % (x, y, intp) if flagwrong = 0: righ1t = righ1t + 1 continue; break; elif 1 = symbol: # subtraction # Inner Loop-question if x print question % d: % d-% d = % (num, x, y), input = raw_input () intp = string. atoi (input) print intp while intp! = (X-y): print is incorrect! % D-% d is not equal to % d % (x, y, intp) flagwrong = 1; # If you miss one time, you cannot increase the score (score). print and calculate it again, question % d: % d-% d = % (num, x, y), input = raw_input () intp = string. atoi (input) if intp = x-y: break; continue; if intp = (x-y): print is correct! % D-% d is equal to % d % (x, y, intp) if flagwrong = 0: righ1t = righ1t + 1 continue; break; elif 2 = symbol: # multiplication # Inner Loop-Question # if x print question % d: % d * % d = % (num, x, y), input = raw_input () intp = string. atoi (input) print intp while intp! = (X * y): print is incorrect! % D * % d is not equal to % d % (x, y, intp) flagwrong = 1; # If you miss one time, you cannot increase the score (score). print and calculate it again, question % d: % d * % d = % (num, x, y), input = raw_input () intp = string. atoi (input) if intp = x * y: break; continue; if intp = (x * y): print is correct! % D * % d is equal to % d % (x, y, intp) if flagwrong = 0: righ1t = righ1t + 1 continue; break; elif 3 = symbol: # Division # Inner Loop-question if x print question % d: % d/% d = % (num, x, y), print operator? :, Input = raw_input () intp = string. atoi (input) print remainder? :, Input2yushu = raw_input () intp2yushu = string. atoi (input2yushu) print OPERATOR:, print intp, print remainder:, print intp2yushu while x! = (Intp * y) + intp2yushu): print is incorrect! % D/% d is not equal to quotient % d, remainder % d! % (X, y, intp, intp2yushu) flagwrong = 1; # If you miss one time, you cannot increase the score (score) by calculating print again. Question % d: % d/% d operator =? % (Num, x, y), input = raw_input () intp = string. atoi (input) print remainder? =, Input2yushu = raw_input () intp2yushu = string. atoi (input2yushu) if x = (intp * y + intp2yushu): break; continue; if x = (intp * y) + intp2yushu): print is correct! % D/% d is equal to quotient % d, remainder % d! % (X, y, intp, intp2yushu) if flagwrong = 0: righ1t = righ1t + 1 continue; break; # Addition/subtraction/multiplication/division num = 0 within 100