New to Pandas, looking for the most efficient way to do this.

I have a Series of DataFrames. Each DataFrame has the same columns but different indexes, and they are indexed by date. The Series is indexed by ticker symbol. So each item in the Sequence represents a single time series of each individual stock's performance.

I need to randomly generate a list of n data frames, where each dataframe is a subset of some random assortment of the available stocks' histories. It's ok if there is overlap, so long as start end end dates are different.

This following code does it, but it's really slow, and I'm wondering if there's a better way to go about it:

**Code**

```
def random_sample(data=None, timesteps=100, batch_size=100, subset='train'):
if type(data) != pd.Series:
return None
if subset=='validate':
offset = 0
elif subset=='test':
offset = 200
elif subset=='train':
offset = 400
tickers = np.random.randint(0, len(data), size=len(data))
ret_data = []
while len(ret_data) != batch_size:
for t in tickers:
data_t = data[t]
max_len = len(data_t)-timesteps-1
if len(ret_data)==batch_size: break
if max_len-offset < 0: continue
index = np.random.randint(offset, max_len)
d = data_t[index:index+timesteps]
if len(d)==timesteps: ret_data.append(d)
return ret_data
```

**Profile output:**

```
Timer unit: 1e-06 s
File: finance.py
Function: random_sample at line 137
Total time: 0.016142 s
Line # Hits Time Per Hit % Time Line Contents
==============================================================
137 @profile
138 def random_sample(data=None, timesteps=100, batch_size=100, subset='train'):
139 1 5 5.0 0.0 if type(data) != pd.Series:
140 return None
141
142 1 1 1.0 0.0 if subset=='validate':
143 offset = 0
144 1 1 1.0 0.0 elif subset=='test':
145 offset = 200
146 1 0 0.0 0.0 elif subset=='train':
147 1 1 1.0 0.0 offset = 400
148
149 1 1835 1835.0 11.4 tickers = np.random.randint(0, len(data), size=len(data))
150
151 1 2 2.0 0.0 ret_data = []
152 2 3 1.5 0.0 while len(ret_data) != batch_size:
153 116 148 1.3 0.9 for t in tickers:
154 116 2497 21.5 15.5 data_t = data[t]
155 116 317 2.7 2.0 max_len = len(data_t)-timesteps-1
156 116 80 0.7 0.5 if len(ret_data)==batch_size: break
157 115 69 0.6 0.4 if max_len-offset < 0: continue
158
159 100 101 1.0 0.6 index = np.random.randint(offset, max_len)
160 100 10840 108.4 67.2 d = data_t[index:index+timesteps]
161 100 241 2.4 1.5 if len(d)==timesteps: ret_data.append(d)
162
163 1 1 1.0 0.0 return ret_data
```