tests/test-ir-walker.cc - platform/external/libabigail - Git at Google

 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 // -*- Mode: C++ -*-
 //
 // Copyright (C) 2013-2020 Red Hat, Inc.

 #include <string>
 #include <fstream>
 #include <iostream>
 #include <cstdlib>
 #include "abg-dwarf-reader.h"
 #include "test-utils.h"

 using std::string;
 using std::ofstream;
 using std::cerr;
 using std::cout;

 ///@file
 ///
 /// This example shows how to walk the Internal Representation (IR)
 /// graph of the ABI of a binary (called an ABI Corpus) and perform
 /// actions on each node of the graph.
 ///
 /// Basically, one has to define a "visitor" which carries member
 /// functions that are called during the traversal of the graph.
 ///
 /// On the visitor, there is potentially one member function pair per
 /// type of node traversed.  Each time a given node is visited, the
 /// corresponding member function pair is called by the traversal
 /// machinery.  In other words, the visitor is notified each time a
 /// node is traversed.
 ///
 /// To define a visitor, one has to create a type which implements
 /// (inherits) the abigail::ir_node_visitor interface.  The visitor
 /// must have a pair of node_begin() and node_end() function per type
 /// of node that we wish to be notified for.
 ///
 ///  Once the visitor is defined, we can load an elf file and build an
 ///  ABI corpus out of it by using the
 ///  libabigail::dwarf_reader::read_corpus_from_elf() function, for
 ///  instance.
 ///
 ///  Then we enumerate the translation units comprised in
 ///  that ABI corpus and we invoke their "traverse()" method, using
 ///  and instance of the visitor that we just defined.
 ///
 ///  Enjoy!

 struct name_printing_visitor : public abigail::ir_node_visitor
 {
   unsigned level_;

   name_printing_visitor()
     : level_()
   {
     // Using this visitor, the IR walker will visit each type only
     // once.
     allow_visiting_already_visited_type_node(false);
   }

   void
   build_level_prefix(string& str)
   {
     str.clear();
     for (unsigned i = 0; i < level_; ++i)
       str += ' ';
   }

   string
   build_level_prefix()
   {
     string prefix;
     build_level_prefix(prefix);
     return prefix;
   }

   bool
   visit_begin(abigail::namespace_decl* ns)
   {
     string prefix = build_level_prefix();

     cout << prefix << ns->get_pretty_representation() << "\n"
 	 << prefix << "{\n";
     ++level_;
     return true;
   }

   bool
   visit_end(abigail::namespace_decl*)
   {
     string prefix = build_level_prefix();
     cout << prefix << "}\n";
     --level_;
     return true;
   }

   bool
   visit_begin(abigail::class_decl* klass)
   {
     string prefix = build_level_prefix();

     cout << prefix << klass->get_pretty_representation() << "\n"
 	 << prefix << "{\n";
     ++level_;
     return true;
   }

   bool
   visit_end(abigail::class_decl*)
   {
     string prefix = build_level_prefix();
     cout << prefix << "}\n";
     --level_;
     return true;
   }

   bool
   visit_begin(abigail::function_decl* f)
   {
     string prefix = build_level_prefix();
     cout << prefix << f->get_pretty_representation() << "\n";
     ++level_;
     return true;
   }

   bool
   visit_end(abigail::function_decl*)
   {
     --level_;
     return true;
   }

   bool
   visit_begin(abigail::var_decl* v)
   {
     string prefix = build_level_prefix();
     cout << prefix << v->get_pretty_representation() << "\n";
     ++level_;
     return true;
   }

   bool
   visit_end(abigail::var_decl*)
   {
     --level_;
     return true;
   }
 };

 int
 main(int argc, char **argv)
 {
   if (argc < 2)
     return 0;

   string file_name = argv[1];

   abigail::ir::environment_sptr env(new abigail::ir::environment);
   abigail::corpus_sptr c;
   abigail::dwarf_reader::status status = abigail::dwarf_reader::STATUS_OK;
   std::vector<char**> di_roots;
   if (!(c = abigail::dwarf_reader::read_corpus_from_elf(file_name, di_roots,
 							env.get(),
 							/*load_all_type=*/false,
 							status)))
     {
       cerr << "failed to read " << file_name << "\n";
       return 1;
     }

   name_printing_visitor v;
   // Now traverse each translation unit of the corpus using our
   // instance of name_printing_visitor
   for (abigail::ir::translation_units::const_iterator tu_iterator =
 	 c->get_translation_units().begin();
        tu_iterator != c->get_translation_units().end();
        ++tu_iterator)
     (*tu_iterator)->traverse(v);
 }
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	// -- Mode: C++ --
	//
	// Copyright (C) 2013-2020 Red Hat, Inc.

	#include <string>
	#include <fstream>
	#include <iostream>
	#include <cstdlib>
	#include "abg-dwarf-reader.h"
	#include "test-utils.h"

	using std::string;
	using std::ofstream;
	using std::cerr;
	using std::cout;

	///@file
	///
	/// This example shows how to walk the Internal Representation (IR)
	/// graph of the ABI of a binary (called an ABI Corpus) and perform
	/// actions on each node of the graph.
	///
	/// Basically, one has to define a "visitor" which carries member
	/// functions that are called during the traversal of the graph.
	///
	/// On the visitor, there is potentially one member function pair per
	/// type of node traversed. Each time a given node is visited, the
	/// corresponding member function pair is called by the traversal
	/// machinery. In other words, the visitor is notified each time a
	/// node is traversed.
	///
	/// To define a visitor, one has to create a type which implements
	/// (inherits) the abigail::ir_node_visitor interface. The visitor
	/// must have a pair of node_begin() and node_end() function per type
	/// of node that we wish to be notified for.
	///
	/// Once the visitor is defined, we can load an elf file and build an
	/// ABI corpus out of it by using the
	/// libabigail::dwarf_reader::read_corpus_from_elf() function, for
	/// instance.
	///
	/// Then we enumerate the translation units comprised in
	/// that ABI corpus and we invoke their "traverse()" method, using
	/// and instance of the visitor that we just defined.
	///
	/// Enjoy!

	struct name_printing_visitor : public abigail::ir_node_visitor
	{
	unsigned level_;

	name_printing_visitor()
	: level_()
	{
	// Using this visitor, the IR walker will visit each type only
	// once.
	allow_visiting_already_visited_type_node(false);
	}

	void
	build_level_prefix(string& str)
	{
	str.clear();
	for (unsigned i = 0; i < level_; ++i)
	str += ' ';
	}

	string
	build_level_prefix()
	{
	string prefix;
	build_level_prefix(prefix);
	return prefix;
	}

	bool
	visit_begin(abigail::namespace_decl* ns)
	{
	string prefix = build_level_prefix();

	cout << prefix << ns->get_pretty_representation() << "\n"
	<< prefix << "{\n";
	++level_;
	return true;
	}

	bool
	visit_end(abigail::namespace_decl*)
	{
	string prefix = build_level_prefix();
	cout << prefix << "}\n";
	--level_;
	return true;
	}

	bool
	visit_begin(abigail::class_decl* klass)
	{
	string prefix = build_level_prefix();

	cout << prefix << klass->get_pretty_representation() << "\n"
	<< prefix << "{\n";
	++level_;
	return true;
	}

	bool
	visit_end(abigail::class_decl*)
	{
	string prefix = build_level_prefix();
	cout << prefix << "}\n";
	--level_;
	return true;
	}

	bool
	visit_begin(abigail::function_decl* f)
	{
	string prefix = build_level_prefix();
	cout << prefix << f->get_pretty_representation() << "\n";
	++level_;
	return true;
	}

	bool
	visit_end(abigail::function_decl*)
	{
	--level_;
	return true;
	}

	bool
	visit_begin(abigail::var_decl* v)
	{
	string prefix = build_level_prefix();
	cout << prefix << v->get_pretty_representation() << "\n";
	++level_;
	return true;
	}

	bool
	visit_end(abigail::var_decl*)
	{
	--level_;
	return true;
	}
	};

	int
	main(int argc, char **argv)
	{
	if (argc < 2)
	return 0;

	string file_name = argv[1];

	abigail::ir::environment_sptr env(new abigail::ir::environment);
	abigail::corpus_sptr c;
	abigail::dwarf_reader::status status = abigail::dwarf_reader::STATUS_OK;
	std::vector<char**> di_roots;
	if (!(c = abigail::dwarf_reader::read_corpus_from_elf(file_name, di_roots,
	env.get(),
	/load_all_type=/false,
	status)))
	{
	cerr << "failed to read " << file_name << "\n";
	return 1;
	}

	name_printing_visitor v;
	// Now traverse each translation unit of the corpus using our
	// instance of name_printing_visitor
	for (abigail::ir::translation_units::const_iterator tu_iterator =
	c->get_translation_units().begin();
	tu_iterator != c->get_translation_units().end();
	++tu_iterator)
	(*tu_iterator)->traverse(v);
	}