Created
December 2, 2013 18:39
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Drawdown Calculation
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| import numpy as np | |
| import matplotlib.pyplot as plt | |
| def drawdown2(series): | |
| MDD = 0 | |
| peak = -99999 | |
| length = len(series) | |
| DD = np.zeros(length) | |
| for i in range(length): | |
| if (series[i] > peak): # peak will be the maximum value seen so far (0 to i) | |
| peak = series[i] | |
| DD[i] = 100.0 * (peak - series[i]) / peak | |
| if (DD[i] > MDD): # Same idea as peak variable, MDD keeps track of the maximum drawdown so far. | |
| MDD = DD[i] | |
| return DD | |
| series = np.random.rand(5,1) | |
| maxdd = 0 | |
| drawdown = list() | |
| length = len(series) | |
| for i in range(length): | |
| cur = series[i] | |
| dd = cur - series[0] | |
| for j in range(1,i): | |
| if (cur - series[j] < dd): | |
| dd = 100 * (cur - series[j])/series[j] | |
| drawdown.append(dd) | |
| maxdd = min(drawdown) | |
| plt.plot(series) | |
| print("The Maxdrawdown is %s \n Drawdowns are %s " % (maxdd, drawdown)) | |
| print(drawdown2(series)) | |
| plt.show() |
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