109 lines
2.3 KiB
Python
109 lines
2.3 KiB
Python
'''
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Let's grok division (and modulus.)
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For now we will deal with both positive
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(or at least of the same sign.)
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'''
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def div_mod(A, B):
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'''
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A and B are lists of digits, LSB->MSB.
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'''
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if not A:
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return [], []
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if not B:
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raise ZeroDivisionError()
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a_len, b_len = len(A), len(B)
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if a_len < b_len or A[-1] < B[-1]:
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return [], A
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# Whew! Okay, we got all that out of the way.
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# A > B
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A_digits = A[-b_len:]
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if -1 == cmp_digits(A_digits, B):
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# Because we know
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# A > B AND a_len >= b_len (aka len(A_digits))
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# if A_digits < B there must be at least one more
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# digit in A:
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assert a_len > b_len
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A_digits = A[-(b_len + 1):]
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assert -1 < cmp_digits(A_digits, B)
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q, r = lil_divmod(A_digits, B)
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def lil_divmod(A, B):
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assert -1 < cmp_digits(A, B)
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assert A and B
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# There is a greatest digit between 0..9 such that:
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# B * digit <= A
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# The obvious thing to do here is a bisect search,
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# if we were really just doing 0..9 we could go linear.
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digit = 9
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Q = mul_digit_by_list_of_digits(digit, B)
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while 1 == cmp_digits(Q, A):
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digit = digit - 1
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if not digit:
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raise ValueError('huh?')
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Q = mul_digit_by_list_of_digits(digit, B)
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return digit, subtract(A, Q)
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def mul_digit_by_list_of_digits(digit, A):
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assert 0 <= digit <= 9
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for n in A:
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assert 0 <= n <= 9
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return int_to_list(list_to_int(A) * digit)
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def int_to_list(i):
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assert i >= 0
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return list(map(int, str(i)[::-1]))
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def list_to_int(A):
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i = int(''.join(map(str, A[::-1])))
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assert i >= 0
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return i
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def cmp_digits(A, B):
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if len(A) > len(B):
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return 1
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if len(A) < len(B):
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return -1
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for a, b in zip(reversed(A), reversed(B)):
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if a > b: return 1
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if a < b: return -1
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else:
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return 0
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def subtract(A, B):
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return int_to_list(list_to_int(A) - list_to_int(B))
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##A = int_to_list(123)
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##B = int_to_list(72)
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##print(A, B)
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##Q = mul_digit_by_list_of_digits(9, A)
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##print(Q)
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A = int_to_list(145)
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B = int_to_list(72)
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q, R = lil_divmod(A, B)
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print(f'divmod({list_to_int(A)}, {list_to_int(B)}) = ',
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q, list_to_int(R))
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##print(cmp_digits([], []))
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##print(cmp_digits([], [1]))
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##print(cmp_digits([1], []))
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##print(cmp_digits([1], [1]))
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##print(cmp_digits([0,1], [1]))
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