link__goto__model_8cpp_source.html

 /*******************************************************************\


 Module: Link Goto Programs


 Author: Michael Tautschnig, Daniel Kroening


 \*******************************************************************/


 #include "link_goto_model.h"

 #include <linking/linking_class.h>


 #include <util/message.h>

 #include <util/rename_symbol.h>

 #include <util/symbol.h>


 #include "goto_model.h"


 #include <unordered_set>


 static void rename_symbols_in_function(

   goto_functionst::goto_functiont &function,

   const rename_symbolt &rename_symbol)

 {

   for(auto &identifier : function.parameter_identifiers)

   {

     auto entry = rename_symbol.expr_map.find(identifier);

     if(entry != rename_symbol.expr_map.end())

       identifier = entry->second;

   }


   for(auto &instruction : function.body.instructions)

   {

     rename_symbol(instruction.code_nonconst());


     if(instruction.has_condition())

       rename_symbol(instruction.condition_nonconst());

   }

 }


 static bool link_functions(

   symbol_tablet &dest_symbol_table,

   goto_functionst &dest_functions,

   const symbol_tablet &src_symbol_table,

   goto_functionst &src_functions,

   const rename_symbolt &rename_dest_symbol,

   const rename_symbolt &rename_src_symbol,

   const std::unordered_set<irep_idt> &weak_symbols)

 {

   namespacet ns(dest_symbol_table);

   namespacet src_ns(src_symbol_table);


   // rename existing functions if linking requires us to do so

   for(const auto &rename_entry : rename_dest_symbol.expr_map)

   {

     auto fn_candidate = dest_functions.function_map.find(rename_entry.first);

     if(fn_candidate == dest_functions.function_map.end())

       continue;


     dest_functions.function_map.insert(

       {rename_entry.second, std::move(fn_candidate->second)});

     dest_functions.function_map.erase(fn_candidate);

   }


   // rename symbols in existing functions

   for(auto &dest_entry : dest_functions.function_map)

     rename_symbols_in_function(dest_entry.second, rename_dest_symbol);


   // merge functions

   for(auto &gf_entry : src_functions.function_map)

   {

     // the function might have been renamed

     rename_symbolt::expr_mapt::const_iterator e_it =

       rename_src_symbol.expr_map.find(gf_entry.first);


     irep_idt final_id = gf_entry.first;


     if(e_it != rename_src_symbol.expr_map.end())

       final_id=e_it->second;


     // already there?

     goto_functionst::function_mapt::iterator dest_f_it=

       dest_functions.function_map.find(final_id);


     goto_functionst::goto_functiont &src_func = gf_entry.second;

     if(dest_f_it==dest_functions.function_map.end()) // not there yet

     {

       rename_symbols_in_function(src_func, rename_src_symbol);

       dest_functions.function_map.emplace(final_id, std::move(src_func));

     }

     else // collision!

     {

       goto_functionst::goto_functiont &in_dest_symbol_table = dest_f_it->second;


       if(in_dest_symbol_table.body.instructions.empty() ||

          weak_symbols.find(final_id)!=weak_symbols.end())

       {

         // the one with body wins!

         rename_symbols_in_function(src_func, rename_src_symbol);


         in_dest_symbol_table.body.swap(src_func.body);

         in_dest_symbol_table.parameter_identifiers.swap(

           src_func.parameter_identifiers);

       }

       else if(

         src_func.body.instructions.empty() ||

         src_ns.lookup(gf_entry.first).is_weak)

       {

         // just keep the old one in dest

       }

       else if(to_code_type(ns.lookup(final_id).type).get_inlined())

       {

         // ok, we silently ignore

       }

     }

   }


   return false;

 }


 std::optional<replace_symbolt::expr_mapt> link_goto_model(

   goto_modelt &dest,

   goto_modelt &&src,

   message_handlert &message_handler)

 {

   std::unordered_set<irep_idt> weak_symbols;


   for(const auto &symbol_pair : dest.symbol_table.symbols)

   {

     if(symbol_pair.second.is_weak)

       weak_symbols.insert(symbol_pair.first);

   }


   linkingt linking(dest.symbol_table, message_handler);


   if(linking.link(src.symbol_table))

   {

     messaget log{message_handler};

     log.error() << "typechecking main failed" << messaget::eom;

     return {};

   }


   if(link_functions(

        dest.symbol_table,

        dest.goto_functions,

        src.symbol_table,

        src.goto_functions,

        linking.rename_main_symbol,

        linking.rename_new_symbol,

        weak_symbols))

   {

     messaget log{message_handler};

     log.error() << "linking failed" << messaget::eom;

     return {};

   }


   return linking.object_type_updates.get_expr_map();

 }


 void finalize_linking(

   goto_modelt &dest,

   const replace_symbolt::expr_mapt &type_updates)

 {

   casting_replace_symbolt object_type_updates;

   object_type_updates.get_expr_map().insert(

     type_updates.begin(), type_updates.end());


   goto_functionst &dest_functions = dest.goto_functions;

   symbol_tablet &dest_symbol_table = dest.symbol_table;


   // apply macros

   rename_symbolt macro_application;


   for(const auto &symbol_pair : dest_symbol_table.symbols)

   {

     if(symbol_pair.second.is_macro && !symbol_pair.second.is_type)

     {

       const symbolt &symbol = symbol_pair.second;


       INVARIANT(symbol.value.id() == ID_symbol, "must have symbol");

       const irep_idt &id = to_symbol_expr(symbol.value).get_identifier();


       #if 0

       if(!base_type_eq(symbol.type, ns.lookup(id).type, ns))

       {

         std::cerr << symbol << '\n';

         std::cerr << ns.lookup(id) << '\n';

       }

       INVARIANT(base_type_eq(symbol.type, ns.lookup(id).type, ns),

                 "type matches");

       #endif


       macro_application.insert_expr(symbol.name, id);

     }

   }


   if(!macro_application.expr_map.empty())

   {

     for(auto &gf_entry : dest_functions.function_map)

       rename_symbols_in_function(gf_entry.second, macro_application);

   }


   if(!object_type_updates.empty())

   {

     for(auto &gf_entry : dest_functions.function_map)

     {

       for(auto &instruction : gf_entry.second.body.instructions)

       {

         if(instruction.is_function_call())

         {

           const bool changed =

             !object_type_updates.replace(instruction.call_function());

           if(changed && instruction.call_lhs().is_not_nil())

           {

             object_type_updates(instruction.call_lhs());

             if(

               instruction.call_lhs().type() !=

               to_code_type(instruction.call_function().type()).return_type())

             {

               instruction.call_lhs() = typecast_exprt{

                 instruction.call_lhs(),

                 to_code_type(instruction.call_function().type()).return_type()};

             }

           }

         }

         else

         {

           instruction.transform([&object_type_updates](exprt expr) {

             const bool changed = !object_type_updates.replace(expr);

             return changed ? std::optional<exprt>{expr} : std::nullopt;

           });

         }

       }

     }

   }

 }

casting_replace_symbolt
Definition: linking_class.h:26

casting_replace_symbolt::replace
bool replace(exprt &dest) const override
Definition: linking.cpp:29

code_typet::return_type
const typet & return_type() const
Definition: std_types.h:689

code_typet::get_inlined
bool get_inlined() const
Definition: std_types.h:709

dstringt
dstringt has one field, an unsigned integer no which is an index into a static table of strings.
Definition: dstring.h:38

exprt
Base class for all expressions.
Definition: expr.h:56

goto_functionst
A collection of goto functions.
Definition: goto_functions.h:25

goto_functionst::function_map
function_mapt function_map
Definition: goto_functions.h:29

goto_functionst::goto_functiont
::goto_functiont goto_functiont
Definition: goto_functions.h:27

goto_modelt
Definition: goto_model.h:27

goto_modelt::symbol_table
symbol_tablet symbol_table
Symbol table.
Definition: goto_model.h:31

goto_modelt::goto_functions
goto_functionst goto_functions
GOTO functions.
Definition: goto_model.h:34

irept::id
const irep_idt & id() const
Definition: irep.h:384

linkingt
Definition: linking_class.h:35

message_handlert
Definition: message.h:28

messaget
Class that provides messages with a built-in verbosity 'level'.
Definition: message.h:155

messaget::eom
static eomt eom
Definition: message.h:297

namespacet
A namespacet is essentially one or two symbol tables bound together, to allow for symbol lookups in t...
Definition: namespace.h:94

namespacet::lookup
bool lookup(const irep_idt &name, const symbolt *&symbol) const override
See documentation for namespace_baset::lookup().
Definition: namespace.cpp:148

rename_symbolt
Definition: rename_symbol.h:26

rename_symbolt::expr_map
expr_mapt expr_map
Definition: rename_symbol.h:63

rename_symbolt::insert_expr
void insert_expr(const irep_idt &old_id, const irep_idt &new_id)
Definition: rename_symbol.h:31

replace_symbolt::empty
bool empty() const
Definition: replace_symbol.h:59

replace_symbolt::get_expr_map
const expr_mapt & get_expr_map() const
Definition: replace_symbol.h:82

replace_symbolt::expr_mapt
std::unordered_map< irep_idt, exprt > expr_mapt
Definition: replace_symbol.h:30

symbol_exprt::get_identifier
const irep_idt & get_identifier() const
Definition: std_expr.h:160

symbol_table_baset::symbols
const symbolst & symbols
Read-only field, used to look up symbols given their names.
Definition: symbol_table_base.h:31

symbol_tablet
The symbol table.
Definition: symbol_table.h:14

symbolt
Symbol table entry.
Definition: symbol.h:28

symbolt::type
typet type
Type of symbol.
Definition: symbol.h:31

symbolt::name
irep_idt name
The unique identifier.
Definition: symbol.h:40

symbolt::value
exprt value
Initial value of symbol.
Definition: symbol.h:34

typecast_exprt
Semantic type conversion.
Definition: std_expr.h:2068

goto_model.h
Symbol Table + CFG.

link_goto_model
std::optional< replace_symbolt::expr_mapt > link_goto_model(goto_modelt &dest, goto_modelt &&src, message_handlert &message_handler)
Link goto model src into goto model dest, invalidating src in this process.
Definition: link_goto_model.cpp:125

finalize_linking
void finalize_linking(goto_modelt &dest, const replace_symbolt::expr_mapt &type_updates)
Apply type_updates to dest, where type_updates were constructed from one or more calls to link_goto_m...
Definition: link_goto_model.cpp:164

rename_symbols_in_function
static void rename_symbols_in_function(goto_functionst::goto_functiont &function, const rename_symbolt &rename_symbol)
Definition: link_goto_model.cpp:23

link_functions
static bool link_functions(symbol_tablet &dest_symbol_table, goto_functionst &dest_functions, const symbol_tablet &src_symbol_table, goto_functionst &src_functions, const rename_symbolt &rename_dest_symbol, const rename_symbolt &rename_src_symbol, const std::unordered_set< irep_idt > &weak_symbols)
Link a set of goto functions, considering weak symbols and symbol renaming.
Definition: link_goto_model.cpp:45

link_goto_model.h
Read Goto Programs.

linking
bool linking(symbol_table_baset &dest_symbol_table, const symbol_table_baset &new_symbol_table, message_handlert &message_handler)
Merges the symbol table new_symbol_table into dest_symbol_table, renaming symbols from new_symbol_tab...
Definition: linking.cpp:1618

linking_class.h
ANSI-C Linking.

log
double log(double x)
Definition: math.c:2776

rename_symbol.h

INVARIANT
#define INVARIANT(CONDITION, REASON)
This macro uses the wrapper function 'invariant_violated_string'.
Definition: invariant.h:423

message.h

to_symbol_expr
const symbol_exprt & to_symbol_expr(const exprt &expr)
Cast an exprt to a symbol_exprt.
Definition: std_expr.h:272

to_code_type
const code_typet & to_code_type(const typet &type)
Cast a typet to a code_typet.
Definition: std_types.h:788

symbol.h
Symbol table entry.