notmuch/test/gen-threads.py

# Generate all possible single-root message thread structures of size
# argv[1].  Each output line is a thread structure, where the n'th
# field is either a number giving the parent of message n or "None"
# for the root.
import sys
from itertools import chain, combinations

def subsets(s):
    return chain.from_iterable(combinations(s, r) for r in range(len(s)+1))

nodes = set(range(int(sys.argv[1])))

# Queue of (tree, free, to_expand) where tree is a {node: parent}
# dictionary, free is a set of unattached nodes, and to_expand is
# itself a queue of nodes in the tree that need to be expanded.
# The queue starts with all single-node trees.
queue = [({root: None}, nodes - {root}, (root,)) for root in nodes]

# Process queue
while queue:
    tree, free, to_expand = queue.pop()

    if len(to_expand) == 0:
        # Only print full-sized trees
        if len(free) == 0:
            print(" ".join(map(str, [msg[1] for msg in sorted(tree.items())])))
    else:
        # Expand node to_expand[0] with each possible set of children
        for children in subsets(free):
            ntree = {child: to_expand[0] for child in children}
            ntree.update(tree)
            nfree = free.difference(children)
            queue.append((ntree, nfree, to_expand[1:] + tuple(children)))
test: Test thread linking in all possible delivery orders These tests deliver all possible (single-root) four-message threads in all possible orders and check that notmuch successfully links them into threads. These tests supersede and replace the previous and much less thorough "T260-thread-order" tests. There are two variants of the test: one delivers messages that reference only their immediate parent and the other delivers messages that reference all of their parents. The latter test is currently known-broken. 2014-07-09 23:15:38 +02:00			`# Generate all possible single-root message thread structures of size`
			`# argv[1]. Each output line is a thread structure, where the n'th`
			`# field is either a number giving the parent of message n or "None"`
			`# for the root.`
			`import sys`
			`from itertools import chain, combinations`

			`def subsets(s):`
			`return chain.from_iterable(combinations(s, r) for r in range(len(s)+1))`

			`nodes = set(range(int(sys.argv[1])))`

			`# Queue of (tree, free, to_expand) where tree is a {node: parent}`
			`# dictionary, free is a set of unattached nodes, and to_expand is`
			`# itself a queue of nodes in the tree that need to be expanded.`
			`# The queue starts with all single-node trees.`
			`queue = [({root: None}, nodes - {root}, (root,)) for root in nodes]`

			`# Process queue`
			`while queue:`
			`tree, free, to_expand = queue.pop()`

			`if len(to_expand) == 0:`
			`# Only print full-sized trees`
			`if len(free) == 0:`
			`print(" ".join(map(str, [msg[1] for msg in sorted(tree.items())])))`
			`else:`
			`# Expand node to_expand[0] with each possible set of children`
			`for children in subsets(free):`
test: Make gen-threads work with python3 python3 doesn't allow dictionaries to be initialized with non-string keywords. This presents problems on systems in which "python" means "python3". We instead initalize the dictionary using the dict comprehension and then update it with the values from the tree. This will work with both python2 and python3. 2014-10-31 18:33:25 +01:00			`ntree = {child: to_expand[0] for child in children}`
			`ntree.update(tree)`
test: Test thread linking in all possible delivery orders These tests deliver all possible (single-root) four-message threads in all possible orders and check that notmuch successfully links them into threads. These tests supersede and replace the previous and much less thorough "T260-thread-order" tests. There are two variants of the test: one delivers messages that reference only their immediate parent and the other delivers messages that reference all of their parents. The latter test is currently known-broken. 2014-07-09 23:15:38 +02:00			`nfree = free.difference(children)`
			`queue.append((ntree, nfree, to_expand[1:] + tuple(children)))`