numpy merge sorted array to an new array?
The sortednp package implements an efficient merge of sorted numpy-arrays:
import numpy as np
import sortednp
a = np.array([1,3,5])
b = np.array([2,4,6])
c = sortednp.merge(a, b) # c == np.array([1,2,3,4,5,6])
Inspired by Sander's post, I measured numpy's mergesort (v1.17.4), Sander's answer, and sortednp (v0.2.1) for different array-sizes and ratios of the sizes between a and b using the following code:
from timeit import timeit as t
import sortednp as snp
import numpy as np
def numpy_mergesort(a, b):
c = np.concatenate((a,b))
c.sort(kind='mergesort')
return c
def sanders_merge(a, b):
if len(a) < len(b):
b, a = a, b
c = np.empty(len(a) + len(b), dtype=a.dtype)
b_indices = np.arange(len(b)) + np.searchsorted(a, b)
a_indices = np.ones(len(c), dtype=bool)
a_indices[b_indices] = False
c[b_indices] = b
c[a_indices] = a
return c
results = []
for size_factor in range(3):
for max_digits in range(3, 8):
size = 10**max_digits
# size difference of a factor 10 here makes the difference!
a = np.arange(size // 10**size_factor, dtype=np.int)
b = np.arange(size, dtype=np.int)
assert np.array_equal(numpy_mergesort(a, b), sanders_merge(a, b))
assert np.array_equal(numpy_mergesort(a, b), snp.merge(a, b))
classic = t(lambda: numpy_mergesort(a, b), number=10)
sanders = t(lambda: sanders_merge(a, b), number=10)
snp_result = t(lambda: snp.merge(a, b), number=10)
results.append((size_factor, max_digits, classic, sanders, snp_result))
text_format = " ".join(["{:<18}"] * 5)
print(text_format.format("log10(size factor)", "log10(max size)", "np mergesort", "Sander's merge", "sortednp"))
table_format = " ".join(["{:.5f}"] * 5)
for result in results:
print(table_format.format(*result))
The results show that sortednp consistently is the fastest implementation:
log10(size factor) log10(max size) np mergesort Sander's merge sortednp
0.00000 3.00000 0.00016 0.00062 0.00005
0.00000 4.00000 0.00135 0.00469 0.00029
0.00000 5.00000 0.01160 0.03813 0.00292
0.00000 6.00000 0.14952 0.54160 0.03527
0.00000 7.00000 2.00566 5.91691 0.67119
1.00000 3.00000 0.00005 0.00017 0.00002
1.00000 4.00000 0.00019 0.00058 0.00014
1.00000 5.00000 0.00304 0.00633 0.00137
1.00000 6.00000 0.03743 0.06893 0.01828
1.00000 7.00000 0.62334 1.01523 0.38732
2.00000 3.00000 0.00004 0.00015 0.00002
2.00000 4.00000 0.00012 0.00028 0.00013
2.00000 5.00000 0.00217 0.00275 0.00122
2.00000 6.00000 0.03457 0.03205 0.01524
2.00000 7.00000 0.51307 0.50120 0.34335
You can use
from numpy import concatenate, sort
c = concatenate((a,b))
c.sort(kind='mergesort')
I am afraid you can't do better than this, unless you write your own sorting function as a python extension, à la cython.
See this question for a similar problem, but keeping only the unique values in the merged array. The benchmarks and comments there are insightful as well.