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|
/* -*- c++ -*- */
/*
* Copyright 2007,2011 Free Software Foundation, Inc.
*
* This file is part of GNU Radio
*
* GNU Radio is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3, or (at your option)
* any later version.
*
* GNU Radio 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with GNU Radio; see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street,
* Boston, MA 02110-1301, USA.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <gr_flowgraph.h>
#include <gr_io_signature.h>
#include <stdexcept>
#include <sstream>
#include <iterator>
#define GR_FLOWGRAPH_DEBUG 0
gr_edge::~gr_edge()
{
}
gr_flowgraph_sptr gr_make_flowgraph()
{
return gr_flowgraph_sptr(new gr_flowgraph());
}
gr_flowgraph::gr_flowgraph()
{
}
gr_flowgraph::~gr_flowgraph()
{
}
// FIXME: move to libgruel as a utility function
template<class T>
static
std::vector<T>
unique_vector(std::vector<T> v)
{
std::vector<T> result;
std::insert_iterator<std::vector<T> > inserter(result, result.begin());
sort(v.begin(), v.end());
unique_copy(v.begin(), v.end(), inserter);
return result;
}
void
gr_flowgraph::connect(const gr_endpoint &src, const gr_endpoint &dst)
{
check_valid_port(src.block()->output_signature(), src.port());
check_valid_port(dst.block()->input_signature(), dst.port());
check_dst_not_used(dst);
check_type_match(src, dst);
// All ist klar, Herr Kommisar
d_edges.push_back(gr_edge(src,dst));
}
void
gr_flowgraph::disconnect(const gr_endpoint &src, const gr_endpoint &dst)
{
for (gr_edge_viter_t p = d_edges.begin(); p != d_edges.end(); p++) {
if (src == p->src() && dst == p->dst()) {
d_edges.erase(p);
return;
}
}
std::stringstream msg;
msg << "cannot disconnect edge " << gr_edge(src, dst) << ", not found";
throw std::invalid_argument(msg.str());
}
void
gr_flowgraph::validate()
{
d_blocks = calc_used_blocks();
for (gr_basic_block_viter_t p = d_blocks.begin(); p != d_blocks.end(); p++) {
std::vector<int> used_ports;
int ninputs, noutputs;
if (GR_FLOWGRAPH_DEBUG)
std::cout << "Validating block: " << (*p) << std::endl;
used_ports = calc_used_ports(*p, true); // inputs
ninputs = used_ports.size();
check_contiguity(*p, used_ports, true); // inputs
used_ports = calc_used_ports(*p, false); // outputs
noutputs = used_ports.size();
check_contiguity(*p, used_ports, false); // outputs
if (!((*p)->check_topology(ninputs, noutputs))) {
std::stringstream msg;
msg << "check topology failed on " << (*p)
<< " using ninputs=" << ninputs
<< ", noutputs=" << noutputs;
throw std::runtime_error(msg.str());
}
}
}
void
gr_flowgraph::clear()
{
// Boost shared pointers will deallocate as needed
d_blocks.clear();
d_edges.clear();
}
void
gr_flowgraph::check_valid_port(gr_io_signature_sptr sig, int port)
{
std::stringstream msg;
if (port < 0) {
msg << "negative port number " << port << " is invalid";
throw std::invalid_argument(msg.str());
}
int max = sig->max_streams();
if (max != gr_io_signature::IO_INFINITE && port >= max) {
msg << "port number " << port << " exceeds max of ";
if (max == 0)
msg << "(none)";
else
msg << max-1;
throw std::invalid_argument(msg.str());
}
}
void
gr_flowgraph::check_dst_not_used(const gr_endpoint &dst)
{
// A destination is in use if it is already on the edge list
for (gr_edge_viter_t p = d_edges.begin(); p != d_edges.end(); p++)
if (p->dst() == dst) {
std::stringstream msg;
msg << "destination already in use by edge " << (*p);
throw std::invalid_argument(msg.str());
}
}
void
gr_flowgraph::check_type_match(const gr_endpoint &src, const gr_endpoint &dst)
{
int src_size = src.block()->output_signature()->sizeof_stream_item(src.port());
int dst_size = dst.block()->input_signature()->sizeof_stream_item(dst.port());
if (src_size != dst_size) {
std::stringstream msg;
msg << "itemsize mismatch: " << src << " using " << src_size
<< ", " << dst << " using " << dst_size;
throw std::invalid_argument(msg.str());
}
}
gr_basic_block_vector_t
gr_flowgraph::calc_used_blocks()
{
gr_basic_block_vector_t tmp;
// Collect all blocks in the edge list
for (gr_edge_viter_t p = d_edges.begin(); p != d_edges.end(); p++) {
tmp.push_back(p->src().block());
tmp.push_back(p->dst().block());
}
return unique_vector<gr_basic_block_sptr>(tmp);
}
std::vector<int>
gr_flowgraph::calc_used_ports(gr_basic_block_sptr block, bool check_inputs)
{
std::vector<int> tmp;
// Collect all seen ports
gr_edge_vector_t edges = calc_connections(block, check_inputs);
for (gr_edge_viter_t p = edges.begin(); p != edges.end(); p++) {
if (check_inputs == true)
tmp.push_back(p->dst().port());
else
tmp.push_back(p->src().port());
}
return unique_vector<int>(tmp);
}
gr_edge_vector_t
gr_flowgraph::calc_connections(gr_basic_block_sptr block, bool check_inputs)
{
gr_edge_vector_t result;
for (gr_edge_viter_t p = d_edges.begin(); p != d_edges.end(); p++) {
if (check_inputs) {
if (p->dst().block() == block)
result.push_back(*p);
}
else {
if (p->src().block() == block)
result.push_back(*p);
}
}
return result; // assumes no duplicates
}
void
gr_flowgraph::check_contiguity(gr_basic_block_sptr block,
const std::vector<int> &used_ports,
bool check_inputs)
{
std::stringstream msg;
gr_io_signature_sptr sig =
check_inputs ? block->input_signature() : block->output_signature();
int nports = used_ports.size();
int min_ports = sig->min_streams();
int max_ports = sig->max_streams();
if (nports == 0 && min_ports == 0)
return;
if (nports < min_ports) {
msg << block << ": insufficient connected "
<< (check_inputs ? "input ports " : "output ports ")
<< "(" << min_ports << " needed, " << nports << " connected)";
throw std::runtime_error(msg.str());
}
if (nports > max_ports && max_ports != gr_io_signature::IO_INFINITE) {
msg << block << ": too many connected "
<< (check_inputs ? "input ports " : "output ports ")
<< "(" << max_ports << " allowed, " << nports << " connected)";
throw std::runtime_error(msg.str());
}
if (used_ports[nports-1]+1 != nports) {
for (int i = 0; i < nports; i++) {
if (used_ports[i] != i) {
msg << block << ": missing connection "
<< (check_inputs ? "to input port " : "from output port ")
<< i;
throw std::runtime_error(msg.str());
}
}
}
}
gr_basic_block_vector_t
gr_flowgraph::calc_downstream_blocks(gr_basic_block_sptr block, int port)
{
gr_basic_block_vector_t tmp;
for (gr_edge_viter_t p = d_edges.begin(); p != d_edges.end(); p++)
if (p->src() == gr_endpoint(block, port))
tmp.push_back(p->dst().block());
return unique_vector<gr_basic_block_sptr>(tmp);
}
gr_basic_block_vector_t
gr_flowgraph::calc_downstream_blocks(gr_basic_block_sptr block)
{
gr_basic_block_vector_t tmp;
for (gr_edge_viter_t p = d_edges.begin(); p != d_edges.end(); p++)
if (p->src().block() == block)
tmp.push_back(p->dst().block());
return unique_vector<gr_basic_block_sptr>(tmp);
}
gr_edge_vector_t
gr_flowgraph::calc_upstream_edges(gr_basic_block_sptr block)
{
gr_edge_vector_t result;
for (gr_edge_viter_t p = d_edges.begin(); p != d_edges.end(); p++)
if (p->dst().block() == block)
result.push_back(*p);
return result; // Assume no duplicates
}
bool
gr_flowgraph::has_block_p(gr_basic_block_sptr block)
{
gr_basic_block_viter_t result;
result = std::find(d_blocks.begin(), d_blocks.end(), block);
return (result != d_blocks.end());
}
gr_edge
gr_flowgraph::calc_upstream_edge(gr_basic_block_sptr block, int port)
{
gr_edge result;
for (gr_edge_viter_t p = d_edges.begin(); p != d_edges.end(); p++) {
if (p->dst() == gr_endpoint(block, port)) {
result = (*p);
break;
}
}
return result;
}
std::vector<gr_basic_block_vector_t>
gr_flowgraph::partition()
{
std::vector<gr_basic_block_vector_t> result;
gr_basic_block_vector_t blocks = calc_used_blocks();
gr_basic_block_vector_t graph;
while (blocks.size() > 0) {
graph = calc_reachable_blocks(blocks[0], blocks);
assert(graph.size());
result.push_back(topological_sort(graph));
for (gr_basic_block_viter_t p = graph.begin(); p != graph.end(); p++)
blocks.erase(find(blocks.begin(), blocks.end(), *p));
}
return result;
}
gr_basic_block_vector_t
gr_flowgraph::calc_reachable_blocks(gr_basic_block_sptr block, gr_basic_block_vector_t &blocks)
{
gr_basic_block_vector_t result;
// Mark all blocks as unvisited
for (gr_basic_block_viter_t p = blocks.begin(); p != blocks.end(); p++)
(*p)->set_color(gr_basic_block::WHITE);
// Recursively mark all reachable blocks
reachable_dfs_visit(block, blocks);
// Collect all the blocks that have been visited
for (gr_basic_block_viter_t p = blocks.begin(); p != blocks.end(); p++)
if ((*p)->color() == gr_basic_block::BLACK)
result.push_back(*p);
return result;
}
// Recursively mark all reachable blocks from given block and block list
void
gr_flowgraph::reachable_dfs_visit(gr_basic_block_sptr block, gr_basic_block_vector_t &blocks)
{
// Mark the current one as visited
block->set_color(gr_basic_block::BLACK);
// Recurse into adjacent vertices
gr_basic_block_vector_t adjacent = calc_adjacent_blocks(block, blocks);
for (gr_basic_block_viter_t p = adjacent.begin(); p != adjacent.end(); p++)
if ((*p)->color() == gr_basic_block::WHITE)
reachable_dfs_visit(*p, blocks);
}
// Return a list of block adjacent to a given block along any edge
gr_basic_block_vector_t
gr_flowgraph::calc_adjacent_blocks(gr_basic_block_sptr block, gr_basic_block_vector_t &blocks)
{
gr_basic_block_vector_t tmp;
// Find any blocks that are inputs or outputs
for (gr_edge_viter_t p = d_edges.begin(); p != d_edges.end(); p++) {
if (p->src().block() == block)
tmp.push_back(p->dst().block());
if (p->dst().block() == block)
tmp.push_back(p->src().block());
}
return unique_vector<gr_basic_block_sptr>(tmp);
}
gr_basic_block_vector_t
gr_flowgraph::topological_sort(gr_basic_block_vector_t &blocks)
{
gr_basic_block_vector_t tmp;
gr_basic_block_vector_t result;
tmp = sort_sources_first(blocks);
// Start 'em all white
for (gr_basic_block_viter_t p = tmp.begin(); p != tmp.end(); p++)
(*p)->set_color(gr_basic_block::WHITE);
for (gr_basic_block_viter_t p = tmp.begin(); p != tmp.end(); p++) {
if ((*p)->color() == gr_basic_block::WHITE)
topological_dfs_visit(*p, result);
}
reverse(result.begin(), result.end());
return result;
}
gr_basic_block_vector_t
gr_flowgraph::sort_sources_first(gr_basic_block_vector_t &blocks)
{
gr_basic_block_vector_t sources, nonsources, result;
for (gr_basic_block_viter_t p = blocks.begin(); p != blocks.end(); p++) {
if (source_p(*p))
sources.push_back(*p);
else
nonsources.push_back(*p);
}
for (gr_basic_block_viter_t p = sources.begin(); p != sources.end(); p++)
result.push_back(*p);
for (gr_basic_block_viter_t p = nonsources.begin(); p != nonsources.end(); p++)
result.push_back(*p);
return result;
}
bool
gr_flowgraph::source_p(gr_basic_block_sptr block)
{
return (calc_upstream_edges(block).size() == 0);
}
void
gr_flowgraph::topological_dfs_visit(gr_basic_block_sptr block, gr_basic_block_vector_t &output)
{
block->set_color(gr_basic_block::GREY);
gr_basic_block_vector_t blocks(calc_downstream_blocks(block));
for (gr_basic_block_viter_t p = blocks.begin(); p != blocks.end(); p++) {
switch ((*p)->color()) {
case gr_basic_block::WHITE:
topological_dfs_visit(*p, output);
break;
case gr_basic_block::GREY:
throw std::runtime_error("flow graph has loops!");
case gr_basic_block::BLACK:
continue;
default:
throw std::runtime_error("invalid color on block!");
}
}
block->set_color(gr_basic_block::BLACK);
output.push_back(block);
}
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