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authorRaymond Hettinger <python@rcn.com>2004-06-10 05:07:18 (GMT)
committerRaymond Hettinger <python@rcn.com>2004-06-10 05:07:18 (GMT)
commitbce036b49ee84333a325a932013592662dbe09d9 (patch)
tree6227af2716a3e0bb1a85b500d9ceb8d4f7480825 /Lib
parent33ecffb65ae43ece95e4d828f95819395187d579 (diff)
downloadcpython-bce036b49ee84333a325a932013592662dbe09d9.zip
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Convert test_heapq.py to unittests.
Diffstat (limited to 'Lib')
-rw-r--r--Lib/test/test_heapq.py176
1 files changed, 90 insertions, 86 deletions
diff --git a/Lib/test/test_heapq.py b/Lib/test/test_heapq.py
index f04ea94..944b17d 100644
--- a/Lib/test/test_heapq.py
+++ b/Lib/test/test_heapq.py
@@ -1,101 +1,105 @@
"""Unittests for heapq."""
-from test.test_support import verify, vereq, verbose, TestFailed
-
from heapq import heappush, heappop, heapify, heapreplace, nlargest, nsmallest
import random
+import unittest
+from test import test_support
-def check_invariant(heap):
- # Check the heap invariant.
- for pos, item in enumerate(heap):
- if pos: # pos 0 has no parent
- parentpos = (pos-1) >> 1
- verify(heap[parentpos] <= item)
-# An iterator returning a heap's elements, smallest-first.
-class heapiter(object):
- def __init__(self, heap):
- self.heap = heap
+def heapiter(heap):
+ # An iterator returning a heap's elements, smallest-first.
+ try:
+ while 1:
+ yield heappop(heap)
+ except IndexError:
+ pass
- def next(self):
- try:
- return heappop(self.heap)
- except IndexError:
- raise StopIteration
+class TestHeap(unittest.TestCase):
- def __iter__(self):
- return self
+ def test_push_pop(self):
+ # 1) Push 256 random numbers and pop them off, verifying all's OK.
+ heap = []
+ data = []
+ self.check_invariant(heap)
+ for i in range(256):
+ item = random.random()
+ data.append(item)
+ heappush(heap, item)
+ self.check_invariant(heap)
+ results = []
+ while heap:
+ item = heappop(heap)
+ self.check_invariant(heap)
+ results.append(item)
+ data_sorted = data[:]
+ data_sorted.sort()
+ self.assertEqual(data_sorted, results)
+ # 2) Check that the invariant holds for a sorted array
+ self.check_invariant(results)
-def test_main():
- # 1) Push 100 random numbers and pop them off, verifying all's OK.
- heap = []
- data = []
- check_invariant(heap)
- for i in range(256):
- item = random.random()
- data.append(item)
- heappush(heap, item)
- check_invariant(heap)
- results = []
- while heap:
- item = heappop(heap)
- check_invariant(heap)
- results.append(item)
- data_sorted = data[:]
- data_sorted.sort()
- vereq(data_sorted, results)
- # 2) Check that the invariant holds for a sorted array
- check_invariant(results)
- # 3) Naive "N-best" algorithm
- heap = []
- for item in data:
- heappush(heap, item)
- if len(heap) > 10:
- heappop(heap)
- heap.sort()
- vereq(heap, data_sorted[-10:])
- # 4) Test heapify.
- for size in range(30):
- heap = [random.random() for dummy in range(size)]
- heapify(heap)
- check_invariant(heap)
- # 5) Less-naive "N-best" algorithm, much faster (if len(data) is big
- # enough <wink>) than sorting all of data. However, if we had a max
- # heap instead of a min heap, it could go faster still via
- # heapify'ing all of data (linear time), then doing 10 heappops
- # (10 log-time steps).
- heap = data[:10]
- heapify(heap)
- for item in data[10:]:
- if item > heap[0]: # this gets rarer the longer we run
- heapreplace(heap, item)
- vereq(list(heapiter(heap)), data_sorted[-10:])
- # 6) Exercise everything with repeated heapsort checks
- for trial in xrange(100):
- size = random.randrange(50)
- data = [random.randrange(25) for i in range(size)]
- if trial & 1: # Half of the time, use heapify
- heap = data[:]
+ def check_invariant(self, heap):
+ # Check the heap invariant.
+ for pos, item in enumerate(heap):
+ if pos: # pos 0 has no parent
+ parentpos = (pos-1) >> 1
+ self.assert_(heap[parentpos] <= item)
+
+ def test_heapify(self):
+ for size in range(30):
+ heap = [random.random() for dummy in range(size)]
heapify(heap)
- else: # The rest of the time, use heappush
- heap = []
- for item in data:
- heappush(heap,item)
- data.sort()
- sorted = [heappop(heap) for i in range(size)]
- vereq(data, sorted)
+ self.check_invariant(heap)
+
+ def test_naive_nbest(self):
+ data = [random.randrange(2000) for i in range(1000)]
+ heap = []
+ for item in data:
+ heappush(heap, item)
+ if len(heap) > 10:
+ heappop(heap)
+ heap.sort()
+ self.assertEqual(heap, sorted(data)[-10:])
- # 7) Check nlargest() and nsmallest()
- data = [random.randrange(2000) for i in range(1000)]
- copy = data[:]
- copy.sort(reverse=True)
- vereq(nlargest(data, 400), copy[:400])
- copy.sort()
- vereq(nsmallest(data, 400), copy[:400])
+ def test_nbest(self):
+ # Less-naive "N-best" algorithm, much faster (if len(data) is big
+ # enough <wink>) than sorting all of data. However, if we had a max
+ # heap instead of a min heap, it could go faster still via
+ # heapify'ing all of data (linear time), then doing 10 heappops
+ # (10 log-time steps).
+ data = [random.randrange(2000) for i in range(1000)]
+ heap = data[:10]
+ heapify(heap)
+ for item in data[10:]:
+ if item > heap[0]: # this gets rarer the longer we run
+ heapreplace(heap, item)
+ self.assertEqual(list(heapiter(heap)), sorted(data)[-10:])
- # Make user happy
- if verbose:
- print "All OK"
+ def test_heapsort(self):
+ # Exercise everything with repeated heapsort checks
+ for trial in xrange(100):
+ size = random.randrange(50)
+ data = [random.randrange(25) for i in range(size)]
+ if trial & 1: # Half of the time, use heapify
+ heap = data[:]
+ heapify(heap)
+ else: # The rest of the time, use heappush
+ heap = []
+ for item in data:
+ heappush(heap, item)
+ heap_sorted = [heappop(heap) for i in range(size)]
+ self.assertEqual(heap_sorted, sorted(data))
+
+ def test_nsmallest(self):
+ data = [random.randrange(2000) for i in range(1000)]
+ self.assertEqual(nsmallest(data, 400), sorted(data)[:400])
+
+ def test_largest(self):
+ data = [random.randrange(2000) for i in range(1000)]
+ self.assertEqual(nlargest(data, 400), sorted(data, reverse=True)[:400])
+
+def test_main():
+ test_support.run_unittest(TestHeap)
if __name__ == "__main__":
test_main()
+