// Copyright Nat Goodspeed 2013. // Distributed under the Boost Software License, Version 1.0. // (See accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt) #include #include #include #include #include #include #include #include #include #include struct node { typedef boost::shared_ptr< node > ptr_t; // Each tree node has an optional left subtree, an optional right subtree // and a value of its own. The value is considered to be between the left // subtree and the right. ptr_t left, right; std::string value; // construct leaf node(const std::string& v): left(), right(), value(v) {} // construct nonleaf node(ptr_t l, const std::string& v, ptr_t r): left(l), right(r), value(v) {} static ptr_t create(const std::string& v) { return ptr_t(new node(v)); } static ptr_t create(ptr_t l, const std::string& v, ptr_t r) { return ptr_t(new node(l, v, r)); } }; node::ptr_t create_left_tree_from(const std::string& root) { /* -------- root / \ b e / \ a c -------- */ return node::create( node::create( node::create("a"), "b", node::create("c")), root, node::create("e")); } node::ptr_t create_right_tree_from(const std::string& root) { /* -------- root / \ a d / \ c e -------- */ return node::create( node::create("a"), root, node::create( node::create("c"), "d", node::create("e"))); } // recursively walk the tree, delivering values in order void traverse(node::ptr_t n,boost::coroutines::asymmetric_coroutine::push_type& out) { if (n->left) traverse(n->left,out); out(n->value); if (n->right) traverse(n->right,out); } int main() { { node::ptr_t left_d(create_left_tree_from("d")); boost::coroutines::asymmetric_coroutine::pull_type left_d_reader( boost::bind(traverse, left_d, _1)); std::cout << "left tree from d:\n"; std::copy(boost::begin(left_d_reader), boost::end(left_d_reader), std::ostream_iterator(std::cout, " ")); std::cout << std::endl; node::ptr_t right_b(create_right_tree_from("b")); boost::coroutines::asymmetric_coroutine::pull_type right_b_reader( boost::bind(traverse, right_b, _1)); std::cout << "right tree from b:\n"; std::copy(boost::begin(right_b_reader), boost::end(right_b_reader), std::ostream_iterator(std::cout, " ")); std::cout << std::endl; node::ptr_t right_x(create_right_tree_from("x")); boost::coroutines::asymmetric_coroutine::pull_type right_x_reader( boost::bind(traverse, right_x, _1)); std::cout << "right tree from x:\n"; std::copy(boost::begin(right_x_reader), boost::end(right_x_reader), std::ostream_iterator(std::cout, " ")); std::cout << std::endl; } { node::ptr_t left_d(create_left_tree_from("d")); boost::coroutines::asymmetric_coroutine::pull_type left_d_reader( boost::bind(traverse, left_d, _1)); node::ptr_t right_b(create_right_tree_from("b")); boost::coroutines::asymmetric_coroutine::pull_type right_b_reader( boost::bind(traverse, right_b, _1)); std::cout << "left tree from d == right tree from b? " << std::boolalpha << std::equal(boost::begin(left_d_reader), boost::end(left_d_reader), boost::begin(right_b_reader)) << std::endl; } { node::ptr_t left_d(create_left_tree_from("d")); boost::coroutines::asymmetric_coroutine::pull_type left_d_reader( boost::bind(traverse, left_d, _1)); node::ptr_t right_x(create_right_tree_from("x")); boost::coroutines::asymmetric_coroutine::pull_type right_x_reader( boost::bind(traverse, right_x, _1)); std::cout << "left tree from d == right tree from x? " << std::boolalpha << std::equal(boost::begin(left_d_reader), boost::end(left_d_reader), boost::begin(right_x_reader)) << std::endl; } std::cout << "Done" << std::endl; return EXIT_SUCCESS; }