schoeffelbe82781/AlgoDatSoSe25
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Implemented Algo_3 (n_log(n))

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Bernhard Schoeffel 2025-03-27 16:33:08 +01:00
parent 8df24e2aa1
commit c0d376cd5c
1 changed files with 65 additions and 2 deletions
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67
schoeffelbe/pr01.py
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@ -38,6 +38,68 @@ def max_sequence_2(z: MemoryArray):
r.set(j) r.set(j)
return m, l, r return m, l, r
def _max_sequence_3_sub(z: MemoryArray, l: Literal, m: Literal, r: Literal):
# find max-sum from Middle to left (including on elem from right)
linksMax = MemoryCell(MIN_VALUE)
sum = MemoryCell(0)
links = MemoryCell(l)
rechts = MemoryCell(l)
for i in mrange(m, MemoryCell(l)-Literal(1), -1):
sum += z[i]
if sum > linksMax :
linksMax.set(sum)
links.set(i)
# find max-sum from Middle to right (inluding one elem from left)
rechtsMax = MemoryCell(MIN_VALUE)
sum.set(0);
startRight = MemoryCell(1) + m
for i in mrange(startRight, r):
sum += z[i]
if sum > rechtsMax:
rechtsMax.set(sum)
rechts.set(i)
return (linksMax + rechtsMax), links, rechts
def _max_sequence_3(z: MemoryArray, l: Literal, r: Literal):
# Calc-Vars -> illegal to use Literal(0) here? Probably
linksMax = MemoryCell()
linksL = MemoryCell()
linksR = MemoryCell()
rechtsMax = MemoryCell()
rechtsL = MemoryCell()
rechtsR = MemoryCell()
zwiMax = MemoryCell()
zwiL = MemoryCell()
zwiR = MemoryCell()
# Middle
m = MemoryCell()
# Rec-Term - Reached subarray of size 1
if l == r:
return (z[l], l, r)
# calc middle
m.set(MemoryCell(l) + r)
m /= Literal(2);
# get maxLeft, then maxRight and then cross them (rec)
(linksMax, linksL, linksR) = _max_sequence_3(z, l, m)
startRight = MemoryCell(1) + m
(rechtsMax, rechtsL, rechtsR) = _max_sequence_3(z, startRight, r)
(zwiMax, zwiL, zwiR) = _max_sequence_3_sub(z, l, m, r)
if linksMax >= rechtsMax and linksMax >= zwiMax:
return (linksMax, linksL, linksR)
if rechtsMax >= linksMax and rechtsMax >= zwiMax:
return (rechtsMax, rechtsL, rechtsR)
return (zwiMax, zwiL, zwiR)
# Wrapper for Seq DivAndConquer to keep call/teststructure possible
def max_sequence_3(z: MemoryArray):
# Start with full range
lstart = Literal(0)
rend = Literal(len(z) - 1)
return _max_sequence_3(z, lstart, rend)
def example(max_sequence_func): def example(max_sequence_func):
l = [-59, 52, 46, 14, -50, 58, -87, -77, 34, 15] l = [-59, 52, 46, 14, -50, 58, -87, -77, 34, 15]
@ -47,6 +109,7 @@ def example(max_sequence_func):
print(m, l, r) print(m, l, r)
assert(m == Literal(120)) assert(m == Literal(120))
def seq(filename, max_sequence_func): def seq(filename, max_sequence_func):
z = MemoryArray.create_array_from_file(filename) z = MemoryArray.create_array_from_file(filename)
m, l, r = max_sequence_func(z) m, l, r = max_sequence_func(z)
@ -70,9 +133,9 @@ def analyze_complexity(max_sequence_func, sizes):
if __name__ == '__main__': if __name__ == '__main__':
fn = max_sequence_2 fn = max_sequence_3
example(fn) example(fn)
for filename in ["data/seq0.txt", "data/seq1.txt"]: for filename in ["data/seq0.txt", "data/seq1.txt", "data/seq2.txt"]:
print(filename) print(filename)
seq(filename, fn) seq(filename, fn)
analyze_complexity(fn, [10, 20, 30, 40, 50, 60, 70, 80, 90, 100]) analyze_complexity(fn, [10, 20, 30, 40, 50, 60, 70, 80, 90, 100])