50 lines
1.4 KiB
Python
50 lines
1.4 KiB
Python
from utils.memory_array import MemoryArray
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from utils.memory_cell import MemoryCell
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from utils.constants import MIN_VALUE
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from utils.memory_manager import MemoryManager
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from utils.memory_range import mrange
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def max_sequence_1(z: MemoryArray):
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n = z.length()
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m = MemoryCell(MIN_VALUE)
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s = MemoryCell()
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l = MemoryCell()
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r = MemoryCell()
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for i in mrange(n):
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for j in mrange(i, n):
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s.set(0)
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for k in mrange(i, j):
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s += z[k]
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if s > m:
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m.set(s)
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l.set(i)
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r.set(j)
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return m, l, r
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def example(max_sequence_func):
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z = MemoryArray([-59, 52, 46, 14, -50, 58, -87, -77, 34, 15])
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m, l, r = max_sequence_func(z)
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print(m, l, r)
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def analyze_complexity(max_sequence_func, sizes):
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"""
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Analysiert die Komplexität einer maximalen Teilfolgenfunktion.
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:param max_sequence_func: Die Funktion, die analysiert wird.
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:param sizes: Eine Liste von Eingabegrößen für die Analyse.
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"""
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for size in sizes:
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MemoryManager.purge() # Speicher zurücksetzen
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random_array = MemoryArray.create_random_array(size, -100, 100)
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max_sequence_func(random_array)
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MemoryManager.save_stats(size)
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MemoryManager.plot_stats(["cells", "adds"])
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if __name__ == '__main__':
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example(max_sequence_1)
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analyze_complexity(max_sequence_1, [10, 20, 30, 40, 50, 60, 70, 80, 90, 100]) |