477 lines
18 KiB
C++
477 lines
18 KiB
C++
// Copyright (C) 2012 Davis E. King (davis@dlib.net)
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// License: Boost Software License See LICENSE.txt for the full license.
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#undef DLIB_MIN_CuT_ABSTRACT_Hh_
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#ifdef DLIB_MIN_CuT_ABSTRACT_Hh_
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#include "../graph_utils.h"
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// ----------------------------------------------------------------------------------------
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namespace dlib
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{
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/*!A node_label
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The node_label type is the type used to label which part of a graph cut
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a node is on. It is used by all the graph cut tools. The three possible
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values of a node label are SOURCE_CUT, SINK_CUT, or FREE_NODE.
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!*/
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typedef unsigned char node_label;
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const node_label SOURCE_CUT = 0;
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const node_label SINK_CUT = 254;
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const node_label FREE_NODE = 255;
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// ----------------------------------------------------------------------------------------
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class flow_graph
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{
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/*!
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WHAT THIS OBJECT REPRESENTS
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This object represents a flow capacity graph for use with the
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min_cut algorithm defined below. In particular, this object
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is a kind of directed graph where the edge weights specify the
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flow capacities.
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Note that there is no dlib::flow_graph object. What you are
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looking at here is simply the interface definition for a graph
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which can be used with the min_cut algorithm. You must implement
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your own version of this object for the graph you wish to work with
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and then pass it to the min_cut::operator() routine.
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It's also worth pointing out that this graph has symmetric edge
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connections. That is, if there is an edge from node A to node B
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then there must also be an edge from node B to node A.
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!*/
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public:
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class out_edge_iterator
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{
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/*!
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WHAT THIS OBJECT REPRESENTS
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This is a simple forward iterator for iterating over the neighbors
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of a node in the graph. It also represents the fact that the neighbors
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are on the end of an outgoing edge. That is, the edge represents
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the amount of flow which can flow towards the neighbor.
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!*/
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public:
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out_edge_iterator(
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);
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/*!
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ensures
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- constructs an iterator in an undefined state. It can't
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be used until assigned with a valid iterator.
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!*/
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out_edge_iterator(
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const out_edge_iterator& item
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);
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/*!
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ensures
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- #*this is a copy of item
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!*/
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out_edge_iterator& operator=(
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const out_edge_iterator& item
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);
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/*!
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ensures
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- #*this is a copy of item
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- returns #*this
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!*/
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bool operator!= (
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const out_edge_iterator& item
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) const;
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/*!
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requires
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- *this and item are iterators over the neighbors for the
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same node.
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ensures
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- returns false if *this and item both reference the same
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node in the graph and true otherwise.
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!*/
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out_edge_iterator& operator++(
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);
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/*!
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ensures
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- advances *this to the next neighbor node.
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- returns a reference to the updated *this
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(i.e. this is the ++object form of the increment operator)
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!*/
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};
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class in_edge_iterator
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{
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/*!
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WHAT THIS OBJECT REPRESENTS
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This is a simple forward iterator for iterating over the neighbors
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of a node in the graph. It also represents the fact that the neighbors
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are on the end of an incoming edge. That is, the edge represents
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the amount of flow which can flow out of the neighbor node.
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!*/
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public:
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in_edge_iterator(
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);
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/*!
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ensures
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- constructs an iterator in an undefined state. It can't
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be used until assigned with a valid iterator.
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!*/
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in_edge_iterator(
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const in_edge_iterator& item
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);
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/*!
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ensures
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- #*this is a copy of item
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!*/
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in_edge_iterator& operator=(
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const in_edge_iterator& item
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);
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/*!
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ensures
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- #*this is a copy of item
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- returns #*this
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!*/
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bool operator!= (
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const in_edge_iterator& item
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) const;
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/*!
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requires
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- *this and item are iterators over the neighbors for the
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same node.
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ensures
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- returns false if *this and item both reference the same
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node in the graph and true otherwise.
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!*/
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in_edge_iterator& operator++(
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);
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/*!
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ensures
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- advances *this to the next neighbor node.
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- returns a reference to the updated *this
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(i.e. this is the ++object form of the increment operator)
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!*/
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};
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unsigned long number_of_nodes (
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) const;
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/*!
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ensures
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- returns the number of nodes in the graph.
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!*/
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out_edge_iterator out_begin(
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const unsigned long& idx
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) const;
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/*!
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requires
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- idx < number_of_nodes()
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ensures
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- returns an iterator pointing to the first neighboring node of
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the idx-th node. If no such node exists then returns out_end(idx).
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- The returned iterator also represents the directed edge going from
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node idx to the neighbor.
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!*/
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in_edge_iterator in_begin(
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const unsigned long& idx
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) const;
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/*!
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requires
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- idx < number_of_nodes()
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ensures
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- returns an iterator pointing to the first neighboring node of
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the idx-th node. If no such node exists then returns in_end(idx).
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- The returned iterator also represents the directed edge going from
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the neighbor to node idx.
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!*/
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out_edge_iterator out_end(
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const unsigned long& idx
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) const;
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/*!
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requires
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- idx < number_of_nodes()
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ensures
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- returns an iterator to one past the last neighboring node of
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the idx-th node.
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!*/
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in_edge_iterator in_end(
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const unsigned long& idx
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) const;
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/*!
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requires
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- idx < number_of_nodes()
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ensures
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- returns an iterator to one past the last neighboring node of
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the idx-th node.
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!*/
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unsigned long node_id (
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const out_edge_iterator& it
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) const;
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/*!
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requires
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- it == a valid iterator (i.e. it must be in the range [out_begin(idx), out_end(idx))
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for some valid idx)
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ensures
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- returns a number IDX such that:
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- 0 <= IDX < number_of_nodes()
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- IDX == The index which uniquely identifies the node pointed to by the
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iterator it. This number can be used with any member function in this
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object which expect a node index. (e.g. get_label(IDX) == the label for the
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node pointed to by it)
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!*/
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unsigned long node_id (
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const in_edge_iterator& it
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) const;
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/*!
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requires
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- it == a valid iterator (i.e. it must be in the range [in_begin(idx), in_end(idx))
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for some valid idx)
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ensures
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- returns a number IDX such that:
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- 0 <= IDX < number_of_nodes()
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- IDX == The index which uniquely identifies the node pointed to by the
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iterator it. This number can be used with any member function in this
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object which expect a node index. (e.g. get_label(IDX) == the label for the
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node pointed to by it)
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!*/
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// This typedef should be for a type like int or double. It
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// must also be capable of representing signed values.
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typedef an_integer_or_real_type edge_type;
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edge_type get_flow (
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const unsigned long& idx1,
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const unsigned long& idx2
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) const;
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/*!
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requires
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- idx1 < number_of_nodes()
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- idx2 < number_of_nodes()
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- idx1 and idx2 are neighbors in the graph
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ensures
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- returns the residual flow capacity from the idx1-th node to the idx2-th node.
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- It is valid for this function to return a floating point value of infinity.
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This value means this edge has an unlimited capacity.
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!*/
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edge_type get_flow (
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const out_edge_iterator& it
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) const;
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/*!
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requires
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- it == a valid iterator (i.e. it must be in the range [out_begin(idx), out_end(idx))
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for some valid idx)
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ensures
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- let IDX = node_id(it)
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- it represents the directed edge from a node, call it H, to the node IDX. Therefore,
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this function returns get_flow(H,IDX)
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- It is valid for this function to return a floating point value of infinity.
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This value means this edge has an unlimited capacity.
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!*/
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edge_type get_flow (
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const in_edge_iterator& it
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) const;
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/*!
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requires
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- it == a valid iterator (i.e. it must be in the range [in_begin(idx), in_end(idx))
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for some valid idx)
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ensures
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- let IDX = node_id(it)
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- it represents the directed edge from node IDX to another node, call it H. Therefore,
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this function returns get_flow(IDX,H)
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- It is valid for this function to return a floating point value of infinity.
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This value means this edge has an unlimited capacity.
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!*/
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void adjust_flow (
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const unsigned long& idx1,
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const unsigned long& idx2,
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const edge_type& value
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);
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/*!
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requires
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- idx1 < number_of_nodes()
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- idx2 < number_of_nodes()
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- idx1 and idx2 are neighbors in the graph
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ensures
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- #get_flow(idx1,idx2) == get_flow(idx1,idx2) + value
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- #get_flow(idx2,idx1) == get_flow(idx2,idx1) - value
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!*/
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void set_label (
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const unsigned long& idx,
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node_label value
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);
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/*!
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requires
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- idx < number_of_nodes()
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ensures
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- #get_label(idx) == value
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!*/
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node_label get_label (
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const unsigned long& idx
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) const;
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/*!
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requires
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- idx < number_of_nodes()
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ensures
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- returns the label for the idx-th node in the graph.
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!*/
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};
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// ----------------------------------------------------------------------------------------
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template <
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typename flow_graph
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>
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typename flow_graph::edge_type graph_cut_score (
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const flow_graph& g
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);
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/*!
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requires
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- flow_graph == an object with an interface compatible with the flow_graph
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object defined at the top of this file, or, an implementation of
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dlib/directed_graph/directed_graph_kernel_abstract.h.
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ensures
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- returns the sum of the outgoing flows from nodes with a label of SOURCE_CUT
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to nodes with a label != SOURCE_CUT. Note that for a directed_graph object,
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the labels are stored in the node's data field.
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!*/
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// ----------------------------------------------------------------------------------------
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class min_cut
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{
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/*!
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WHAT THIS OBJECT REPRESENTS
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This is a function object which can be used to find the min cut
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on a graph.
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The implementation is based on the method described in the following
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paper:
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An Experimental Comparison of Min-Cut/Max-Flow Algorithms for
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Energy Minimization in Vision, by Yuri Boykov and Vladimir Kolmogorov,
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in PAMI 2004.
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!*/
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public:
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min_cut(
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);
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/*!
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ensures
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- this object is properly initialized
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!*/
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template <
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typename flow_graph
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>
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void operator() (
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flow_graph& g,
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const unsigned long source_node,
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const unsigned long sink_node
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) const;
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/*!
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requires
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- flow_graph == an object with an interface compatible with the flow_graph
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object defined at the top of this file.
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- source_node != sink_node
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- source_node < g.number_of_nodes()
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- sink_node < g.number_of_nodes()
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- for all valid i and j:
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- g.get_flow(i,j) >= 0
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(i.e. all the flow capacities/edge weights are non-negative)
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- g does not contain any self loops. That is, no nodes are neighbors with
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themselves.
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ensures
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- Finds the minimum cut on the given graph. That is, this function finds
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a labeling of nodes in g such that graph_cut_score(g) would be minimized. Note
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that the flow values in #g are modified by this algorithm so if you want
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to obtain the min cut score you must call min_cut::operator(), then copy
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the flow values back into #g, and then call graph_cut_score(#g). But in most
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cases you don't care about the value of the min cut score, rather, you
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just want the labels in #g.
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- #g.get_label(source_node) == SOURCE_CUT
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- #g.get_label(sink_node) == SINK_CUT
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- for all valid i:
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- #g.get_label(i) == SOURCE_CUT, SINK_CUT, or FREE_NODE
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- if (#g.get_label(i) == SOURCE_CUT) then
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- The minimum cut of g places node i into the source side of the cut.
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- if (#g.get_label(i) == SINK_CUT) then
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- The minimum cut of g places node i into the sink side of the cut.
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- if (#g.get_label(i) == FREE_NODE) then
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- Node i can be labeled SOURCE_CUT or SINK_CUT. Both labelings
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result in the same cut score.
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- When interpreting g as a graph of flow capacities from the source_node
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to the sink_node we can say that the min cut problem is equivalent to
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the max flow problem. This equivalent problem is to find out how to push
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as much "flow" from the source node to the sink node as possible.
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Upon termination, #g will contain the final flow residuals in addition to
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the graph cut labels. That is, for all valid i and j:
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- #g.get_flow(i,j) == the residual flow capacity left after the max
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possible amount of flow is passing from the source node to the sink
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node. For example, this means that #g.get_flow(i,j) == 0 whenever
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node i is in the SOURCE_CUT and j is in the SINK_CUT.
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- #g.get_flow(i,j) >= 0
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!*/
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template <
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typename directed_graph
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>
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void operator() (
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directed_graph& g,
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const unsigned long source_node,
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const unsigned long sink_node
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) const;
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/*!
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requires
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- directed_graph == an implementation of dlib/directed_graph/directed_graph_kernel_abstract.h
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- directed_graph::type == node_label
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- directed_graph::edge_type == and integer or double type
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- source_node != sink_node
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- source_node < g.number_of_nodes()
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- sink_node < g.number_of_nodes()
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- for all valid i and j:
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- edge(g,i,j) >= 0
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(i.e. all the flow capacities/edge weights are positive)
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- graph_contains_length_one_cycle(g) == false
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- graph_has_symmetric_edges(g) == true
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ensures
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- This routine simply converts g into a flow graph and calls the version
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of operator() defined above. Note that the conversion is done in O(1)
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time, it's just an interface adaptor.
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- edge weights in g correspond to network flows while the .data field of
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each node in g corresponds to the graph node labels.
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- upon termination, the flows and labels in g will have been modified
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as described in the above operator() routine.
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!*/
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};
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// ----------------------------------------------------------------------------------------
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}
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#endif // DLIB_MIN_CuT_ABSTRACT_Hh_
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