gcc/analyzer/feasible-graph.cc - gcc - Git at Google

 /* A graph for exploring trees of feasible paths through the egraph.
    Copyright (C) 2021-2022 Free Software Foundation, Inc.
    Contributed by David Malcolm <dmalcolm@redhat.com>.

 This file is part of GCC.

 GCC 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.

 GCC 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 GCC; see the file COPYING3.  If not see
 <http://www.gnu.org/licenses/>.  */

 #include "config.h"
 #define INCLUDE_MEMORY
 #include "system.h"
 #include "coretypes.h"
 #include "tree.h"
 #include "pretty-print.h"
 #include "gcc-rich-location.h"
 #include "gimple-pretty-print.h"
 #include "function.h"
 #include "diagnostic-core.h"
 #include "diagnostic-event-id.h"
 #include "diagnostic-path.h"
 #include "bitmap.h"
 #include "ordered-hash-map.h"
 #include "analyzer/analyzer.h"
 #include "analyzer/analyzer-logging.h"
 #include "analyzer/sm.h"
 #include "analyzer/pending-diagnostic.h"
 #include "analyzer/diagnostic-manager.h"
 #include "analyzer/call-string.h"
 #include "analyzer/program-point.h"
 #include "analyzer/store.h"
 #include "analyzer/region-model.h"
 #include "analyzer/constraint-manager.h"
 #include "cfg.h"
 #include "basic-block.h"
 #include "gimple.h"
 #include "gimple-iterator.h"
 #include "cgraph.h"
 #include "digraph.h"
 #include "analyzer/supergraph.h"
 #include "analyzer/program-state.h"
 #include "analyzer/exploded-graph.h"
 #include "analyzer/feasible-graph.h"

 #if ENABLE_ANALYZER

 namespace ana {

 /* class base_feasible_node : public dnode<fg_traits>.  */

 /* Print an id to PP for this node suitable for use in .dot dumps.  */

 void
 base_feasible_node::dump_dot_id (pretty_printer *pp) const
 {
   pp_printf (pp, "fnode_%i", m_index);
 }

 /* class feasible_node : public base_feasible_node.  */

 /* Implementation of dump_dot vfunc for feasible_node.  */

 void
 feasible_node::dump_dot (graphviz_out *gv,
 			const dump_args_t &) const
 {
   pretty_printer *pp = gv->get_pp ();

   dump_dot_id (pp);
   pp_printf (pp, " [shape=none,margin=0,style=filled,fillcolor=%s,label=\"",
 	     m_inner_node->get_dot_fillcolor ());
   pp_write_text_to_stream (pp);

   pp_printf (pp, "FN: %i (EN: %i); len=%i", m_index, m_inner_node->m_index,
 	     m_path_length);
   pp_newline (pp);

   format f (true);
   m_inner_node->get_point ().print (pp, f);
   pp_newline (pp);

   /* Show the model at this point along expansion of the feasible path,
      rather than the model within the enode.  */
   m_state.get_model ().dump_to_pp (pp, true, true);
   pp_newline (pp);

   m_inner_node->dump_processed_stmts (pp);
   m_inner_node->dump_saved_diagnostics (pp);

   pp_write_text_as_dot_label_to_stream (pp, /*for_record=*/true);

   pp_string (pp, "\"];\n\n");
   pp_flush (pp);
 }

 /* Implementation of dump_dot vfunc for infeasible_node.
    In particular, show the rejected constraint.  */

 void
 infeasible_node::dump_dot (graphviz_out *gv,
 			   const dump_args_t &) const
 {
   pretty_printer *pp = gv->get_pp ();

   dump_dot_id (pp);
   pp_printf (pp, " [shape=none,margin=0,style=filled,fillcolor=%s,label=\"",
 	     m_inner_node->get_dot_fillcolor ());
   pp_write_text_to_stream (pp);

   pp_printf (pp, "infeasible edge to EN: %i", m_inner_node->m_index);
   pp_newline (pp);

   pp_string (pp, "rejected constraint:");
   pp_newline (pp);
   m_rc->dump_to_pp (pp);

   pp_write_text_as_dot_label_to_stream (pp, /*for_record=*/true);

   pp_string (pp, "\"];\n\n");
   pp_flush (pp);
 }

 /* class base_feasible_edge : public dedge<fg_traits>.  */

 /* Implementation of dump_dot vfunc for base_easible_edge.  */

 void
 base_feasible_edge::dump_dot (graphviz_out *gv, const dump_args_t &) const
 {
   pretty_printer *pp = gv->get_pp ();

   m_src->dump_dot_id (pp);
   pp_string (pp, " -> ");
   m_dest->dump_dot_id (pp);

   m_inner_edge->dump_dot_label (pp);
 }

 /* class feasible_graph : public digraph <fg_traits>.  */

 /* Ctor for feasible_graph.  */

 feasible_graph::feasible_graph ()
 : m_num_infeasible (0)
 {
 }

 /* Add a feasible_node to this graph for ENODE, STATE with the
    given PATH_LENGTH. */

 feasible_node *
 feasible_graph::add_node (const exploded_node *enode,
 			  const feasibility_state &state,
 			  unsigned path_length)
 {
   /* We don't attempt get_or_create here.  */
   feasible_node *fnode = new feasible_node (enode, m_nodes.length (),
 					    state, path_length);
   digraph<fg_traits>::add_node (fnode);
   return fnode;
 }

 /* Add an infeasible_node to this graph and an infeasible_edge connecting
    to it from SRC_FNODE, capturing a failure of RC along EEDGE.
    Takes ownership of RC.  */

 void
 feasible_graph::add_feasibility_problem (feasible_node *src_fnode,
 					 const exploded_edge *eedge,
 					 rejected_constraint *rc)
 {
   infeasible_node *dst_fnode
     = new infeasible_node (eedge->m_dest, m_nodes.length (), rc);
   digraph<fg_traits>::add_node (dst_fnode);
   add_edge (new infeasible_edge (src_fnode, dst_fnode, eedge));
   m_num_infeasible++;
 }

 /* Make an exploded_path from the origin to FNODE's exploded_node,
    following the edges in the feasible_graph.  */

 std::unique_ptr<exploded_path>
 feasible_graph::make_epath (feasible_node *fnode) const
 {
   std::unique_ptr<exploded_path> epath (new exploded_path ());

   /* FG is actually a tree.  Built the path backwards, by walking
      backwards from FNODE until we reach the origin.  */
   while (fnode->get_inner_node ()->m_index != 0)
     {
       gcc_assert (fnode->m_preds.length () == 1);
       feasible_edge *pred_fedge
 	= static_cast <feasible_edge *> (fnode->m_preds[0]);
       epath->m_edges.safe_push (pred_fedge->get_inner_edge ());
       fnode = static_cast <feasible_node *> (pred_fedge->m_src);
     }

   /* Now reverse it.  */
   epath->m_edges.reverse ();

   return epath;
 }

 /* Dump the path to DST_FNODE in textual form to PP.  */

 void
 feasible_graph::dump_feasible_path (const feasible_node &dst_fnode,
 				    pretty_printer *pp) const
 {
   const feasible_node *fnode = &dst_fnode;

   auto_vec<const feasible_edge *> fpath;

   /* FG is actually a tree.  Built the path backwards, by walking
      backwards from FNODE until we reach the origin.  */
   while (fnode->get_inner_node ()->m_index != 0)
     {
       gcc_assert (fnode->m_preds.length () == 1);
       feasible_edge *pred_fedge
 	= static_cast <feasible_edge *> (fnode->m_preds[0]);
       fpath.safe_push (pred_fedge);
       fnode = static_cast <const feasible_node *> (pred_fedge->m_src);
     }

   /* Now reverse it.  */
   fpath.reverse ();

   for (unsigned i = 0; i < fpath.length (); i++)
     {
       const feasible_edge *fedge = fpath[i];
       const feasible_node *src_fnode
 	= static_cast <const feasible_node *> (fedge->m_src);
       const feasible_node *dest_fnode
 	= static_cast <const feasible_node *> (fedge->m_dest);

       pp_printf (pp, "fpath[%i]: FN %i (EN %i) -> FN %i (EN %i)",
 		 i,
 		 src_fnode->get_index (),
 		 src_fnode->get_inner_node ()->m_index,
 		 dest_fnode->get_index (),
 		 dest_fnode->get_inner_node ()->m_index);
       pp_newline (pp);
       pp_printf (pp, "  FN %i (EN %i):",
 		 dest_fnode->get_index (),
 		 dest_fnode->get_inner_node ()->m_index);
       pp_newline (pp);
       const program_point &point = dest_fnode->get_inner_node ()->get_point ();
       point.print (pp, format (true));
       dest_fnode->get_state ().dump_to_pp (pp, true, true);
       pp_newline (pp);
     }
 }

 /* Dump the path to DST_FNODE in textual form to FILENAME.  */

 void
 feasible_graph::dump_feasible_path (const feasible_node &dst_fnode,
 				    const char *filename) const
 {
   FILE *fp = fopen (filename, "w");
   pretty_printer pp;
   pp_format_decoder (&pp) = default_tree_printer;
   pp.buffer->stream = fp;
   dump_feasible_path (dst_fnode, &pp);
   pp_flush (&pp);
   fclose (fp);
 }

 /* Dump stats about this graph to LOGGER.  */

 void
 feasible_graph::log_stats (logger *logger) const
 {
   logger->log ("#nodes: %i", m_nodes.length ());
   logger->log ("#edges: %i", m_edges.length ());
   logger->log ("#feasible nodes: %i", m_nodes.length () - m_num_infeasible);
   logger->log ("#feasible edges: %i", m_edges.length () - m_num_infeasible);
   logger->log ("#infeasible nodes/edges: %i", m_num_infeasible);
 }

 } // namespace ana

 #endif /* #if ENABLE_ANALYZER */
	/* A graph for exploring trees of feasible paths through the egraph.
	Copyright (C) 2021-2022 Free Software Foundation, Inc.
	Contributed by David Malcolm <dmalcolm@redhat.com>.

	This file is part of GCC.

	GCC 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.

	GCC 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 GCC; see the file COPYING3. If not see
	<http://www.gnu.org/licenses/>. */

	#include "config.h"
	#define INCLUDE_MEMORY
	#include "system.h"
	#include "coretypes.h"
	#include "tree.h"
	#include "pretty-print.h"
	#include "gcc-rich-location.h"
	#include "gimple-pretty-print.h"
	#include "function.h"
	#include "diagnostic-core.h"
	#include "diagnostic-event-id.h"
	#include "diagnostic-path.h"
	#include "bitmap.h"
	#include "ordered-hash-map.h"
	#include "analyzer/analyzer.h"
	#include "analyzer/analyzer-logging.h"
	#include "analyzer/sm.h"
	#include "analyzer/pending-diagnostic.h"
	#include "analyzer/diagnostic-manager.h"
	#include "analyzer/call-string.h"
	#include "analyzer/program-point.h"
	#include "analyzer/store.h"
	#include "analyzer/region-model.h"
	#include "analyzer/constraint-manager.h"
	#include "cfg.h"
	#include "basic-block.h"
	#include "gimple.h"
	#include "gimple-iterator.h"
	#include "cgraph.h"
	#include "digraph.h"
	#include "analyzer/supergraph.h"
	#include "analyzer/program-state.h"
	#include "analyzer/exploded-graph.h"
	#include "analyzer/feasible-graph.h"

	#if ENABLE_ANALYZER

	namespace ana {

	/* class base_feasible_node : public dnode<fg_traits>. */

	/* Print an id to PP for this node suitable for use in .dot dumps. */

	void
	base_feasible_node::dump_dot_id (pretty_printer *pp) const
	{
	pp_printf (pp, "fnode_%i", m_index);
	}

	/* class feasible_node : public base_feasible_node. */

	/* Implementation of dump_dot vfunc for feasible_node. */

	void
	feasible_node::dump_dot (graphviz_out *gv,
	const dump_args_t &) const
	{
	pretty_printer *pp = gv->get_pp ();

	dump_dot_id (pp);
	pp_printf (pp, " [shape=none,margin=0,style=filled,fillcolor=%s,label=\"",
	m_inner_node->get_dot_fillcolor ());
	pp_write_text_to_stream (pp);

	pp_printf (pp, "FN: %i (EN: %i); len=%i", m_index, m_inner_node->m_index,
	m_path_length);
	pp_newline (pp);

	format f (true);
	m_inner_node->get_point ().print (pp, f);
	pp_newline (pp);

	/* Show the model at this point along expansion of the feasible path,
	rather than the model within the enode. */
	m_state.get_model ().dump_to_pp (pp, true, true);
	pp_newline (pp);

	m_inner_node->dump_processed_stmts (pp);
	m_inner_node->dump_saved_diagnostics (pp);

	pp_write_text_as_dot_label_to_stream (pp, /for_record=/true);

	pp_string (pp, "\"];\n\n");
	pp_flush (pp);
	}

	/* Implementation of dump_dot vfunc for infeasible_node.
	In particular, show the rejected constraint. */

	void
	infeasible_node::dump_dot (graphviz_out *gv,
	const dump_args_t &) const
	{
	pretty_printer *pp = gv->get_pp ();

	dump_dot_id (pp);
	pp_printf (pp, " [shape=none,margin=0,style=filled,fillcolor=%s,label=\"",
	m_inner_node->get_dot_fillcolor ());
	pp_write_text_to_stream (pp);

	pp_printf (pp, "infeasible edge to EN: %i", m_inner_node->m_index);
	pp_newline (pp);

	pp_string (pp, "rejected constraint:");
	pp_newline (pp);
	m_rc->dump_to_pp (pp);

	pp_write_text_as_dot_label_to_stream (pp, /for_record=/true);

	pp_string (pp, "\"];\n\n");
	pp_flush (pp);
	}

	/* class base_feasible_edge : public dedge<fg_traits>. */

	/* Implementation of dump_dot vfunc for base_easible_edge. */

	void
	base_feasible_edge::dump_dot (graphviz_out *gv, const dump_args_t &) const
	{
	pretty_printer *pp = gv->get_pp ();

	m_src->dump_dot_id (pp);
	pp_string (pp, " -> ");
	m_dest->dump_dot_id (pp);

	m_inner_edge->dump_dot_label (pp);
	}

	/* class feasible_graph : public digraph <fg_traits>. */

	/* Ctor for feasible_graph. */

	feasible_graph::feasible_graph ()
	: m_num_infeasible (0)
	{
	}

	/* Add a feasible_node to this graph for ENODE, STATE with the
	given PATH_LENGTH. */

	feasible_node *
	feasible_graph::add_node (const exploded_node *enode,
	const feasibility_state &state,
	unsigned path_length)
	{
	/* We don't attempt get_or_create here. */
	feasible_node *fnode = new feasible_node (enode, m_nodes.length (),
	state, path_length);
	digraph<fg_traits>::add_node (fnode);
	return fnode;
	}

	/* Add an infeasible_node to this graph and an infeasible_edge connecting
	to it from SRC_FNODE, capturing a failure of RC along EEDGE.
	Takes ownership of RC. */

	void
	feasible_graph::add_feasibility_problem (feasible_node *src_fnode,
	const exploded_edge *eedge,
	rejected_constraint *rc)
	{
	infeasible_node *dst_fnode
	= new infeasible_node (eedge->m_dest, m_nodes.length (), rc);
	digraph<fg_traits>::add_node (dst_fnode);
	add_edge (new infeasible_edge (src_fnode, dst_fnode, eedge));
	m_num_infeasible++;
	}

	/* Make an exploded_path from the origin to FNODE's exploded_node,
	following the edges in the feasible_graph. */

	std::unique_ptr<exploded_path>
	feasible_graph::make_epath (feasible_node *fnode) const
	{
	std::unique_ptr<exploded_path> epath (new exploded_path ());

	/* FG is actually a tree. Built the path backwards, by walking
	backwards from FNODE until we reach the origin. */
	while (fnode->get_inner_node ()->m_index != 0)
	{
	gcc_assert (fnode->m_preds.length () == 1);
	feasible_edge *pred_fedge
	= static_cast <feasible_edge *> (fnode->m_preds[0]);
	epath->m_edges.safe_push (pred_fedge->get_inner_edge ());
	fnode = static_cast <feasible_node *> (pred_fedge->m_src);
	}

	/* Now reverse it. */
	epath->m_edges.reverse ();

	return epath;
	}

	/* Dump the path to DST_FNODE in textual form to PP. */

	void
	feasible_graph::dump_feasible_path (const feasible_node &dst_fnode,
	pretty_printer *pp) const
	{
	const feasible_node *fnode = &dst_fnode;

	auto_vec<const feasible_edge *> fpath;

	/* FG is actually a tree. Built the path backwards, by walking
	backwards from FNODE until we reach the origin. */
	while (fnode->get_inner_node ()->m_index != 0)
	{
	gcc_assert (fnode->m_preds.length () == 1);
	feasible_edge *pred_fedge
	= static_cast <feasible_edge *> (fnode->m_preds[0]);
	fpath.safe_push (pred_fedge);
	fnode = static_cast <const feasible_node *> (pred_fedge->m_src);
	}

	/* Now reverse it. */
	fpath.reverse ();

	for (unsigned i = 0; i < fpath.length (); i++)
	{
	const feasible_edge *fedge = fpath[i];
	const feasible_node *src_fnode
	= static_cast <const feasible_node *> (fedge->m_src);
	const feasible_node *dest_fnode
	= static_cast <const feasible_node *> (fedge->m_dest);

	pp_printf (pp, "fpath[%i]: FN %i (EN %i) -> FN %i (EN %i)",
	i,
	src_fnode->get_index (),
	src_fnode->get_inner_node ()->m_index,
	dest_fnode->get_index (),
	dest_fnode->get_inner_node ()->m_index);
	pp_newline (pp);
	pp_printf (pp, " FN %i (EN %i):",
	dest_fnode->get_index (),
	dest_fnode->get_inner_node ()->m_index);
	pp_newline (pp);
	const program_point &point = dest_fnode->get_inner_node ()->get_point ();
	point.print (pp, format (true));
	dest_fnode->get_state ().dump_to_pp (pp, true, true);
	pp_newline (pp);
	}
	}

	/* Dump the path to DST_FNODE in textual form to FILENAME. */

	void
	feasible_graph::dump_feasible_path (const feasible_node &dst_fnode,
	const char *filename) const
	{
	FILE *fp = fopen (filename, "w");
	pretty_printer pp;
	pp_format_decoder (&pp) = default_tree_printer;
	pp.buffer->stream = fp;
	dump_feasible_path (dst_fnode, &pp);
	pp_flush (&pp);
	fclose (fp);
	}

	/* Dump stats about this graph to LOGGER. */

	void
	feasible_graph::log_stats (logger *logger) const
	{
	logger->log ("#nodes: %i", m_nodes.length ());
	logger->log ("#edges: %i", m_edges.length ());
	logger->log ("#feasible nodes: %i", m_nodes.length () - m_num_infeasible);
	logger->log ("#feasible edges: %i", m_edges.length () - m_num_infeasible);
	logger->log ("#infeasible nodes/edges: %i", m_num_infeasible);
	}

	} // namespace ana

	#endif /* #if ENABLE_ANALYZER */