/* Copyright (c) 2007-2011 iMatix Corporation Copyright (c) 2007-2011 Other contributors as noted in the AUTHORS file This file is part of 0MQ. 0MQ is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. 0MQ is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this program. If not, see . */ #include #include #include #include "platform.hpp" #if defined ZMQ_HAVE_WINDOWS #include "windows.hpp" #endif #include "err.hpp" #include "pipe.hpp" #include "mtrie.hpp" zmq::mtrie_t::mtrie_t () : min (0), count (0) { } zmq::mtrie_t::~mtrie_t () { if (count == 1) delete next.node; else if (count > 1) { for (unsigned short i = 0; i != count; ++i) if (next.table [i]) delete next.table [i]; free (next.table); } } bool zmq::mtrie_t::add (unsigned char *prefix_, size_t size_, pipe_t *pipe_) { return add_helper (prefix_, size_, pipe_); } bool zmq::mtrie_t::add_helper (unsigned char *prefix_, size_t size_, pipe_t *pipe_) { // We are at the node corresponding to the prefix. We are done. if (!size_) { bool result = pipes.empty (); pipes.insert (pipe_); return result; } unsigned char c = *prefix_; if (c < min || c >= min + count) { // The character is out of range of currently handled // charcters. We have to extend the table. if (!count) { min = c; count = 1; next.node = NULL; } else if (count == 1) { unsigned char oldc = min; mtrie_t *oldp = next.node; count = (min < c ? c - min : min - c) + 1; next.table = (mtrie_t**) malloc (sizeof (mtrie_t*) * count); zmq_assert (next.table); for (unsigned short i = 0; i != count; ++i) next.table [i] = 0; min = std::min (min, c); next.table [oldc - min] = oldp; } else if (min < c) { // The new character is above the current character range. unsigned short old_count = count; count = c - min + 1; next.table = (mtrie_t**) realloc ((void*) next.table, sizeof (mtrie_t*) * count); zmq_assert (next.table); for (unsigned short i = old_count; i != count; i++) next.table [i] = NULL; } else { // The new character is below the current character range. unsigned short old_count = count; count = (min + old_count) - c; next.table = (mtrie_t**) realloc ((void*) next.table, sizeof (mtrie_t*) * count); zmq_assert (next.table); memmove (next.table + min - c, next.table, old_count * sizeof (mtrie_t*)); for (unsigned short i = 0; i != min - c; i++) next.table [i] = NULL; min = c; } } // If next node does not exist, create one. if (count == 1) { if (!next.node) { next.node = new (std::nothrow) mtrie_t; zmq_assert (next.node); } return next.node->add_helper (prefix_ + 1, size_ - 1, pipe_); } else { if (!next.table [c - min]) { next.table [c - min] = new (std::nothrow) mtrie_t; zmq_assert (next.table [c - min]); } return next.table [c - min]->add_helper (prefix_ + 1, size_ - 1, pipe_); } } void zmq::mtrie_t::rm (pipe_t *pipe_, void (*func_) (unsigned char *data_, size_t size_, void *arg_), void *arg_) { unsigned char *buff = NULL; rm_helper (pipe_, &buff, 0, 0, func_, arg_); free (buff); } void zmq::mtrie_t::rm_helper (pipe_t *pipe_, unsigned char **buff_, size_t buffsize_, size_t maxbuffsize_, void (*func_) (unsigned char *data_, size_t size_, void *arg_), void *arg_) { // Remove the subscription from this node. if (pipes.erase (pipe_) && pipes.empty ()) func_ (*buff_, buffsize_, arg_); // Adjust the buffer. if (buffsize_ >= maxbuffsize_) { maxbuffsize_ = buffsize_ + 256; *buff_ = (unsigned char*) realloc (*buff_, maxbuffsize_); alloc_assert (*buff_); } // If there are no subnodes in the trie, return. if (count == 0) return; // If there's one subnode (optimisation). if (count == 1) { (*buff_) [buffsize_] = min; buffsize_++; next.node->rm_helper (pipe_, buff_, buffsize_, maxbuffsize_, func_, arg_); return; } // If there are multiple subnodes. for (unsigned char c = 0; c != count; c++) { (*buff_) [buffsize_] = min + c; if (next.table [c]) next.table [c]->rm_helper (pipe_, buff_, buffsize_ + 1, maxbuffsize_, func_, arg_); } } bool zmq::mtrie_t::rm (unsigned char *prefix_, size_t size_, pipe_t *pipe_) { return rm_helper (prefix_, size_, pipe_); } bool zmq::mtrie_t::rm_helper (unsigned char *prefix_, size_t size_, pipe_t *pipe_) { if (!size_) { pipes_t::size_type erased = pipes.erase (pipe_); zmq_assert (erased == 1); return pipes.empty (); } unsigned char c = *prefix_; if (!count || c < min || c >= min + count) return false; mtrie_t *next_node = count == 1 ? next.node : next.table [c - min]; if (!next_node) return false; return next_node->rm_helper (prefix_ + 1, size_ - 1, pipe_); } void zmq::mtrie_t::match (unsigned char *data_, size_t size_, void (*func_) (pipe_t *pipe_, void *arg_), void *arg_) { match_helper (data_, size_, func_, arg_); } void zmq::mtrie_t::match_helper (unsigned char *data_, size_t size_, void (*func_) (pipe_t *pipe_, void *arg_), void *arg_) { // TODO: This function is on critical path. Rewrite it as iteration // rather than recursion. // Signal the pipes attached to this node. for (pipes_t::iterator it = pipes.begin (); it != pipes.end (); ++it) func_ (*it, arg_); // If there are no subnodes in the trie, return. if (count == 0) return; // If there's one subnode (optimisation). if (count == 1) { next.node->match (data_ + 1, size_ - 1, func_, arg_); return; } // If there are multiple subnodes. for (unsigned char c = 0; c != count; c++) { if (next.table [c]) next.table [c]->match (data_ + 1, size_ - 1, func_, arg_); } }