experiments: add graphlib from python 3.9 to repo

experiments/simbricks/utils/graphlib.py

+# From cpython repo (introduced upstream in python 3.9)
+# Python Software Foundation License Version 2.
+
+__all__ = ["TopologicalSorter", "CycleError"]
+
+_NODE_OUT = -1
+_NODE_DONE = -2
+
+
+class _NodeInfo:
+    __slots__ = "node", "npredecessors", "successors"
+
+    def __init__(self, node):
+        # The node this class is augmenting.
+        self.node = node
+
+        # Number of predecessors, generally >= 0. When this value falls to 0,
+        # and is returned by get_ready(), this is set to _NODE_OUT and when the
+        # node is marked done by a call to done(), set to _NODE_DONE.
+        self.npredecessors = 0
+
+        # List of successor nodes. The list can contain duplicated elements as
+        # long as they're all reflected in the successor's npredecessors attribute).
+        self.successors = []
+
+
+class CycleError(ValueError):
+    """Subclass of ValueError raised by TopologicalSorter.prepare if cycles
+    exist in the working graph.
+
+    If multiple cycles exist, only one undefined choice among them will be reported
+    and included in the exception. The detected cycle can be accessed via the second
+    element in the *args* attribute of the exception instance and consists in a list
+    of nodes, such that each node is, in the graph, an immediate predecessor of the
+    next node in the list. In the reported list, the first and the last node will be
+    the same, to make it clear that it is cyclic.
+    """
+
+    pass
+
+
+class TopologicalSorter:
+    """Provides functionality to topologically sort a graph of hashable nodes"""
+
+    def __init__(self, graph=None):
+        self._node2info = {}
+        self._ready_nodes = None
+        self._npassedout = 0
+        self._nfinished = 0
+
+        if graph is not None:
+            for node, predecessors in graph.items():
+                self.add(node, *predecessors)
+
+    def _get_nodeinfo(self, node):
+        result = self._node2info.get(node)
+        if result is None:
+            self._node2info[node] = result = _NodeInfo(node)
+        return result
+
+    def add(self, node, *predecessors):
+        """Add a new node and its predecessors to the graph.
+
+        Both the *node* and all elements in *predecessors* must be hashable.
+
+        If called multiple times with the same node argument, the set of dependencies
+        will be the union of all dependencies passed in.
+
+        It is possible to add a node with no dependencies (*predecessors* is not provided)
+        as well as provide a dependency twice. If a node that has not been provided before
+        is included among *predecessors* it will be automatically added to the graph with
+        no predecessors of its own.
+
+        Raises ValueError if called after "prepare".
+        """
+        if self._ready_nodes is not None:
+            raise ValueError("Nodes cannot be added after a call to prepare()")
+
+        # Create the node -> predecessor edges
+        nodeinfo = self._get_nodeinfo(node)
+        nodeinfo.npredecessors += len(predecessors)
+
+        # Create the predecessor -> node edges
+        for pred in predecessors:
+            pred_info = self._get_nodeinfo(pred)
+            pred_info.successors.append(node)
+
+    def prepare(self):
+        """Mark the graph as finished and check for cycles in the graph.
+
+        If any cycle is detected, "CycleError" will be raised, but "get_ready" can
+        still be used to obtain as many nodes as possible until cycles block more
+        progress. After a call to this function, the graph cannot be modified and
+        therefore no more nodes can be added using "add".
+        """
+        if self._ready_nodes is not None:
+            raise ValueError("cannot prepare() more than once")
+
+        self._ready_nodes = [
+            i.node for i in self._node2info.values() if i.npredecessors == 0
+        ]
+        # ready_nodes is set before we look for cycles on purpose:
+        # if the user wants to catch the CycleError, that's fine,
+        # they can continue using the instance to grab as many
+        # nodes as possible before cycles block more progress
+        cycle = self._find_cycle()
+        if cycle:
+            raise CycleError(f"nodes are in a cycle", cycle)
+
+    def get_ready(self):
+        """Return a tuple of all the nodes that are ready.
+
+        Initially it returns all nodes with no predecessors; once those are marked
+        as processed by calling "done", further calls will return all new nodes that
+        have all their predecessors already processed. Once no more progress can be made,
+        empty tuples are returned.
+
+        Raises ValueError if called without calling "prepare" previously.
+        """
+        if self._ready_nodes is None:
+            raise ValueError("prepare() must be called first")
+
+        # Get the nodes that are ready and mark them
+        result = tuple(self._ready_nodes)
+        n2i = self._node2info
+        for node in result:
+            n2i[node].npredecessors = _NODE_OUT
+
+        # Clean the list of nodes that are ready and update
+        # the counter of nodes that we have returned.
+        self._ready_nodes.clear()
+        self._npassedout += len(result)
+
+        return result
+
+    def is_active(self):
+        """Return ``True`` if more progress can be made and ``False`` otherwise.
+
+        Progress can be made if cycles do not block the resolution and either there
+        are still nodes ready that haven't yet been returned by "get_ready" or the
+        number of nodes marked "done" is less than the number that have been returned
+        by "get_ready".
+
+        Raises ValueError if called without calling "prepare" previously.
+        """
+        if self._ready_nodes is None:
+            raise ValueError("prepare() must be called first")
+        return self._nfinished < self._npassedout or bool(self._ready_nodes)
+
+    def __bool__(self):
+        return self.is_active()
+
+    def done(self, *nodes):
+        """Marks a set of nodes returned by "get_ready" as processed.
+
+        This method unblocks any successor of each node in *nodes* for being returned
+        in the future by a call to "get_ready".
+
+        Raises :exec:`ValueError` if any node in *nodes* has already been marked as
+        processed by a previous call to this method, if a node was not added to the
+        graph by using "add" or if called without calling "prepare" previously or if
+        node has not yet been returned by "get_ready".
+        """
+
+        if self._ready_nodes is None:
+            raise ValueError("prepare() must be called first")
+
+        n2i = self._node2info
+
+        for node in nodes:
+
+            # Check if we know about this node (it was added previously using add()
+            nodeinfo = n2i.get(node)
+            if nodeinfo is None:
+                raise ValueError(f"node {node!r} was not added using add()")
+
+            # If the node has not being returned (marked as ready) previously, inform the user.
+            stat = nodeinfo.npredecessors
+            if stat != _NODE_OUT:
+                if stat >= 0:
+                    raise ValueError(
+                        f"node {node!r} was not passed out (still not ready)"
+                    )
+                elif stat == _NODE_DONE:
+                    raise ValueError(f"node {node!r} was already marked done")
+                else:
+                    assert False, f"node {node!r}: unknown status {stat}"
+
+            # Mark the node as processed
+            nodeinfo.npredecessors = _NODE_DONE
+
+            # Go to all the successors and reduce the number of predecessors, collecting all the ones
+            # that are ready to be returned in the next get_ready() call.
+            for successor in nodeinfo.successors:
+                successor_info = n2i[successor]
+                successor_info.npredecessors -= 1
+                if successor_info.npredecessors == 0:
+                    self._ready_nodes.append(successor)
+            self._nfinished += 1
+
+    def _find_cycle(self):
+        n2i = self._node2info
+        stack = []
+        itstack = []
+        seen = set()
+        node2stacki = {}
+
+        for node in n2i:
+            if node in seen:
+                continue
+
+            while True:
+                if node in seen:
+                    # If we have seen already the node and is in the
+                    # current stack we have found a cycle.
+                    if node in node2stacki:
+                        return stack[node2stacki[node] :] + [node]
+                    # else go on to get next successor
+                else:
+                    seen.add(node)
+                    itstack.append(iter(n2i[node].successors).__next__)
+                    node2stacki[node] = len(stack)
+                    stack.append(node)
+
+                # Backtrack to the topmost stack entry with
+                # at least another successor.
+                while stack:
+                    try:
+                        node = itstack[-1]()
+                        break
+                    except StopIteration:
+                        del node2stacki[stack.pop()]
+                        itstack.pop()
+                else:
+                    break
+        return None
+
+    def static_order(self):
+        """Returns an iterable of nodes in a topological order.
+
+        The particular order that is returned may depend on the specific
+        order in which the items were inserted in the graph.
+
+        Using this method does not require to call "prepare" or "done". If any
+        cycle is detected, :exc:`CycleError` will be raised.
+        """
+        self.prepare()
+        while self.is_active():
+            node_group = self.get_ready()
+            yield from node_group
+            self.done(*node_group)