nilmdb/tests/test_rbtree.py

# -*- coding: utf-8 -*-

import nilmdb
from nilmdb.utils.printf import *

from nose.tools import *
from nose.tools import assert_raises

from nilmdb.server.rbtree import RBTree, RBNode

from testutil.helpers import *
import unittest

# set to False to skip live renders
do_live_renders = False
def render(tree, description = "", live = True):
    import testutil.renderdot as renderdot
    r = renderdot.RBTreeRenderer(tree)
    return r.render(description, live and do_live_renders)

class TestRBTree:
    def test_rbtree(self):
        rb = RBTree()
        rb.insert(RBNode(10000, 10001))
        rb.insert(RBNode(10004, 10007))
        rb.insert(RBNode(10001, 10002))
        # There was a typo that gave the RBTree a loop in this case.
        # Verify that the dot isn't too big.
        s = render(rb, live = False)
        assert(len(s.splitlines()) < 30)

    def test_rbtree_big(self):
        import random
        random.seed(1234)

        # make a set of 100 intervals, inserted in order
        rb = RBTree()
        j = 100
        for i in xrange(j):
            rb.insert(RBNode(i, i+1))
        render(rb, "in-order insert")

        # remove about half of them
        for i in random.sample(xrange(j),j):
            if random.randint(0,1):
                rb.delete(rb.find(i, i+1))
        render(rb, "in-order insert, random delete")

        # make a set of 100 intervals, inserted at random
        rb = RBTree()
        j = 100
        for i in random.sample(xrange(j),j):
            rb.insert(RBNode(i, i+1))
        render(rb, "random insert")

        # remove about half of them
        for i in random.sample(xrange(j),j):
            if random.randint(0,1):
                rb.delete(rb.find(i, i+1))
        render(rb, "random insert, random delete")

        # in-order insert of 50 more
        for i in xrange(50):
            rb.insert(RBNode(i+500, i+501))
        render(rb, "random insert, random delete, in-order insert")

    def test_rbtree_basics(self):
        rb = RBTree()
        vals = [ 7, 14, 1, 2, 8, 11, 5, 15, 4]
        for n in vals:
            rb.insert(RBNode(n, n))

        # stringify
        s = ""
        for node in rb:
            s += str(node)
        in_("[node (None) 1", s)
        eq_(str(rb.nil), "[node nil]")

        # inorder traversal, successor and predecessor
        last = 0
        for node in rb:
            assert(node.start > last)
            last = node.start
            successor = rb.successor(node)
            if successor:
                assert(rb.predecessor(successor) is node)
            predecessor = rb.predecessor(node)
            if predecessor:
                assert(rb.successor(predecessor) is node)

        # Delete node not in the tree
        with assert_raises(AttributeError):
            rb.delete(RBNode(1,2))

        # Delete all nodes!
        for node in rb:
            rb.delete(node)

        # Build it up again, make sure it matches
        for n in vals:
            rb.insert(RBNode(n, n))
        s2 = ""
        for node in rb:
            s2 += str(node)
        assert(s == s2)

    def test_rbtree_find(self):
        # Get a little bit of coverage for some overlapping cases,
        # even though the class doesn't fully support it.
        rb = RBTree()
        nodes = [ RBNode(1, 5), RBNode(1, 10), RBNode(1, 15) ]
        for n in nodes:
            rb.insert(n)
        assert(rb.find(1, 5) is nodes[0])
        assert(rb.find(1, 10) is nodes[1])
        assert(rb.find(1, 15) is nodes[2])

    def test_rbtree_find_leftright(self):
        # Now let's get some ranges in there
        rb = RBTree()
        vals = [ 7, 14, 1, 2, 8, 11, 5, 15, 4]
        for n in vals:
            rb.insert(RBNode(n*10, n*10+5))

        # Check find_end_left, find_right_start
        for i in range(160):
            left = rb.find_left_end(i)
            right = rb.find_right_start(i)
            if left:
                # endpoint should be more than i
                assert(left.end >= i)
                # all earlier nodes should have a lower endpoint
                for node in rb:
                    if node is left:
                        break
                    assert(node.end < i)
            if right:
                # startpoint should be less than i
                assert(right.start <= i)
                # all later nodes should have a higher startpoint
                for node in reversed(list(rb)):
                    if node is right:
                        break
                    assert(node.start > i)

    def test_rbtree_intersect(self):
        # Fill with some ranges
        rb = RBTree()
        rb.insert(RBNode(10,20))
        rb.insert(RBNode(20,25))
        rb.insert(RBNode(30,40))
        # Just a quick test; test_interval will do better.
        eq_(len(list(rb.intersect(1,100))), 3)
        eq_(len(list(rb.intersect(10,20))), 1)
        eq_(len(list(rb.intersect(5,15))), 1)
        eq_(len(list(rb.intersect(15,15))), 1)
        eq_(len(list(rb.intersect(20,21))), 1)
        eq_(len(list(rb.intersect(19,21))), 2)
add RBtree C++ example that I based this on; update tests git-svn-id: https://bucket.mit.edu/svn/nilm/nilmdb@11376 ddd99763-3ecb-0310-9145-efcb8ce7c51f 2012-11-13 22:55:37 -05:00			`# -- coding: utf-8 --`

			`import nilmdb`
Refactor utility classes into nilmdb.utils subdir/namespace There's some bug with the testing harness where placing e.g. from du import du in nilmdb/utils/__init__.py doesn't quite work -- sometimes the module "du" replaces the function "du". Not exactly sure why; we work around that by just renaming files so they don't match the imported names directly. 2012-12-31 15:52:28 -05:00			`from nilmdb.utils.printf import *`
add RBtree C++ example that I based this on; update tests git-svn-id: https://bucket.mit.edu/svn/nilm/nilmdb@11376 ddd99763-3ecb-0310-9145-efcb8ce7c51f 2012-11-13 22:55:37 -05:00
			`from nose.tools import *`
			`from nose.tools import assert_raises`

Huge cleanup of namespaces, modules, packages, imports. Now nilmdb.client, nilmdb.server, nilmdb.cmdline, and nilmdb.utils are each their own modules, and there is a little bit more of a logical separation between them. Various changes scattered throughout to fix naming (for example, nilmdb.nilmdb.NilmDBError is now nilmdb.server.errors.NilmDBError). Reduced usage of "from __future__ import absolute_import" as much as possible. It's still needed for the functions in the nilmdb/server directory to be able to import the nilmdb module rather than the nilmdb.py script. This should hopefully ease future packaging a bit. 2013-01-28 19:04:52 -05:00			`from nilmdb.server.rbtree import RBTree, RBNode`
add RBtree C++ example that I based this on; update tests git-svn-id: https://bucket.mit.edu/svn/nilm/nilmdb@11376 ddd99763-3ecb-0310-9145-efcb8ce7c51f 2012-11-13 22:55:37 -05:00
Move test helpers into subdirectory 2013-01-05 15:00:34 -05:00			`from testutil.helpers import *`
add RBtree C++ example that I based this on; update tests git-svn-id: https://bucket.mit.edu/svn/nilm/nilmdb@11376 ddd99763-3ecb-0310-9145-efcb8ce7c51f 2012-11-13 22:55:37 -05:00			`import unittest`

Filling out rbtree tests, search routines 2012-11-28 20:57:23 -05:00			`# set to False to skip live renders`
			`do_live_renders = False`
			`def render(tree, description = "", live = True):`
Move test helpers into subdirectory 2013-01-05 15:00:34 -05:00			`import testutil.renderdot as renderdot`
rbtree and interval tests fully pass now. On to benchmarking... 2012-11-29 00:42:50 -05:00			`r = renderdot.RBTreeRenderer(tree)`
			`return r.render(description, live and do_live_renders)`
Working on getting the RBTree working. Intersections are busted. git-svn-id: https://bucket.mit.edu/svn/nilm/nilmdb@11380 ddd99763-3ecb-0310-9145-efcb8ce7c51f 2012-11-15 13:55:56 -05:00
add RBtree C++ example that I based this on; update tests git-svn-id: https://bucket.mit.edu/svn/nilm/nilmdb@11376 ddd99763-3ecb-0310-9145-efcb8ce7c51f 2012-11-13 22:55:37 -05:00			`class TestRBTree:`
			`def test_rbtree(self):`
			`rb = RBTree()`
Filling out rbtree tests, search routines 2012-11-28 20:57:23 -05:00			`rb.insert(RBNode(10000, 10001))`
			`rb.insert(RBNode(10004, 10007))`
			`rb.insert(RBNode(10001, 10002))`
More progress git-svn-id: https://bucket.mit.edu/svn/nilm/nilmdb@11377 ddd99763-3ecb-0310-9145-efcb8ce7c51f 2012-11-13 23:12:15 -05:00			`# There was a typo that gave the RBTree a loop in this case.`
			`# Verify that the dot isn't too big.`
Filling out rbtree tests, search routines 2012-11-28 20:57:23 -05:00			`s = render(rb, live = False)`
More progress git-svn-id: https://bucket.mit.edu/svn/nilm/nilmdb@11377 ddd99763-3ecb-0310-9145-efcb8ce7c51f 2012-11-13 23:12:15 -05:00			`assert(len(s.splitlines()) < 30)`
Deletion is still broken. F. git-svn-id: https://bucket.mit.edu/svn/nilm/nilmdb@11378 ddd99763-3ecb-0310-9145-efcb8ce7c51f 2012-11-13 23:23:53 -05:00
			`def test_rbtree_big(self):`
			`import random`
			`random.seed(1234)`
RBTree seems generally OK now git-svn-id: https://bucket.mit.edu/svn/nilm/nilmdb@11379 ddd99763-3ecb-0310-9145-efcb8ce7c51f 2012-11-14 15:10:43 -05:00
rbtree and interval tests fully pass now. On to benchmarking... 2012-11-29 00:42:50 -05:00			`# make a set of 100 intervals, inserted in order`
RBTree seems generally OK now git-svn-id: https://bucket.mit.edu/svn/nilm/nilmdb@11379 ddd99763-3ecb-0310-9145-efcb8ce7c51f 2012-11-14 15:10:43 -05:00			`rb = RBTree()`
rbtree and interval tests fully pass now. On to benchmarking... 2012-11-29 00:42:50 -05:00			`j = 100`
RBTree seems generally OK now git-svn-id: https://bucket.mit.edu/svn/nilm/nilmdb@11379 ddd99763-3ecb-0310-9145-efcb8ce7c51f 2012-11-14 15:10:43 -05:00			`for i in xrange(j):`
Filling out rbtree tests, search routines 2012-11-28 20:57:23 -05:00			`rb.insert(RBNode(i, i+1))`
			`render(rb, "in-order insert")`
RBTree seems generally OK now git-svn-id: https://bucket.mit.edu/svn/nilm/nilmdb@11379 ddd99763-3ecb-0310-9145-efcb8ce7c51f 2012-11-14 15:10:43 -05:00
			`# remove about half of them`
			`for i in random.sample(xrange(j),j):`
			`if random.randint(0,1):`
			`rb.delete(rb.find(i, i+1))`
Filling out rbtree tests, search routines 2012-11-28 20:57:23 -05:00			`render(rb, "in-order insert, random delete")`
RBTree seems generally OK now git-svn-id: https://bucket.mit.edu/svn/nilm/nilmdb@11379 ddd99763-3ecb-0310-9145-efcb8ce7c51f 2012-11-14 15:10:43 -05:00
rbtree and interval tests fully pass now. On to benchmarking... 2012-11-29 00:42:50 -05:00			`# make a set of 100 intervals, inserted at random`
Deletion is still broken. F. git-svn-id: https://bucket.mit.edu/svn/nilm/nilmdb@11378 ddd99763-3ecb-0310-9145-efcb8ce7c51f 2012-11-13 23:23:53 -05:00			`rb = RBTree()`
rbtree and interval tests fully pass now. On to benchmarking... 2012-11-29 00:42:50 -05:00			`j = 100`
Deletion is still broken. F. git-svn-id: https://bucket.mit.edu/svn/nilm/nilmdb@11378 ddd99763-3ecb-0310-9145-efcb8ce7c51f 2012-11-13 23:23:53 -05:00			`for i in random.sample(xrange(j),j):`
Filling out rbtree tests, search routines 2012-11-28 20:57:23 -05:00			`rb.insert(RBNode(i, i+1))`
			`render(rb, "random insert")`
Deletion is still broken. F. git-svn-id: https://bucket.mit.edu/svn/nilm/nilmdb@11378 ddd99763-3ecb-0310-9145-efcb8ce7c51f 2012-11-13 23:23:53 -05:00
			`# remove about half of them`
			`for i in random.sample(xrange(j),j):`
			`if random.randint(0,1):`
			`rb.delete(rb.find(i, i+1))`
Filling out rbtree tests, search routines 2012-11-28 20:57:23 -05:00			`render(rb, "random insert, random delete")`
RBTree seems generally OK now git-svn-id: https://bucket.mit.edu/svn/nilm/nilmdb@11379 ddd99763-3ecb-0310-9145-efcb8ce7c51f 2012-11-14 15:10:43 -05:00
rbtree and interval tests fully pass now. On to benchmarking... 2012-11-29 00:42:50 -05:00			`# in-order insert of 50 more`
			`for i in xrange(50):`
Filling out rbtree tests, search routines 2012-11-28 20:57:23 -05:00			`rb.insert(RBNode(i+500, i+501))`
			`render(rb, "random insert, random delete, in-order insert")`
RBTree seems generally OK now git-svn-id: https://bucket.mit.edu/svn/nilm/nilmdb@11379 ddd99763-3ecb-0310-9145-efcb8ce7c51f 2012-11-14 15:10:43 -05:00
Filling out rbtree tests, search routines 2012-11-28 20:57:23 -05:00			`def test_rbtree_basics(self):`
			`rb = RBTree()`
			`vals = [ 7, 14, 1, 2, 8, 11, 5, 15, 4]`
			`for n in vals:`
			`rb.insert(RBNode(n, n))`

			`# stringify`
			`s = ""`
			`for node in rb:`
			`s += str(node)`
Converted rbtree.py to Cython About 3x faster 2012-11-29 01:25:51 -05:00			`in_("[node (None) 1", s)`
			`eq_(str(rb.nil), "[node nil]")`
Filling out rbtree tests, search routines 2012-11-28 20:57:23 -05:00
			`# inorder traversal, successor and predecessor`
			`last = 0`
			`for node in rb:`
			`assert(node.start > last)`
			`last = node.start`
			`successor = rb.successor(node)`
			`if successor:`
			`assert(rb.predecessor(successor) is node)`
			`predecessor = rb.predecessor(node)`
			`if predecessor:`
			`assert(rb.successor(predecessor) is node)`

			`# Delete node not in the tree`
			`with assert_raises(AttributeError):`
			`rb.delete(RBNode(1,2))`

			`# Delete all nodes!`
			`for node in rb:`
			`rb.delete(node)`

			`# Build it up again, make sure it matches`
			`for n in vals:`
			`rb.insert(RBNode(n, n))`
			`s2 = ""`
			`for node in rb:`
			`s2 += str(node)`
			`assert(s == s2)`

			`def test_rbtree_find(self):`
			`# Get a little bit of coverage for some overlapping cases,`
			`# even though the class doesn't fully support it.`
			`rb = RBTree()`
			`nodes = [ RBNode(1, 5), RBNode(1, 10), RBNode(1, 15) ]`
			`for n in nodes:`
			`rb.insert(n)`
			`assert(rb.find(1, 5) is nodes[0])`
			`assert(rb.find(1, 10) is nodes[1])`
			`assert(rb.find(1, 15) is nodes[2])`

			`def test_rbtree_find_leftright(self):`
			`# Now let's get some ranges in there`
			`rb = RBTree()`
			`vals = [ 7, 14, 1, 2, 8, 11, 5, 15, 4]`
			`for n in vals:`
			`rb.insert(RBNode(n10, n10+5))`

			`# Check find_end_left, find_right_start`
			`for i in range(160):`
			`left = rb.find_left_end(i)`
			`right = rb.find_right_start(i)`
			`if left:`
			`# endpoint should be more than i`
			`assert(left.end >= i)`
			`# all earlier nodes should have a lower endpoint`
			`for node in rb:`
			`if node is left:`
			`break`
			`assert(node.end < i)`
			`if right:`
			`# startpoint should be less than i`
			`assert(right.start <= i)`
			`# all later nodes should have a higher startpoint`
			`for node in reversed(list(rb)):`
			`if node is right:`
			`break`
			`assert(node.start > i)`

			`def test_rbtree_intersect(self):`
rbtree tests complete 2012-11-29 00:07:49 -05:00			`# Fill with some ranges`
Filling out rbtree tests, search routines 2012-11-28 20:57:23 -05:00			`rb = RBTree()`
rbtree tests complete 2012-11-29 00:07:49 -05:00			`rb.insert(RBNode(10,20))`
			`rb.insert(RBNode(20,25))`
			`rb.insert(RBNode(30,40))`
			`# Just a quick test; test_interval will do better.`
			`eq_(len(list(rb.intersect(1,100))), 3)`
			`eq_(len(list(rb.intersect(10,20))), 1)`
			`eq_(len(list(rb.intersect(5,15))), 1)`
			`eq_(len(list(rb.intersect(15,15))), 1)`
			`eq_(len(list(rb.intersect(20,21))), 1)`
			`eq_(len(list(rb.intersect(19,21))), 2)`