Rewrite parser and evaluator.

1) Use plain representation of expressions instead of recursive objects. 2) Make G_tosave, G_toprint and G_vars local. 3) DepTree nodes contains expressions itself instead of references on global objects. 4) Location tracking of errors.
8 years ago · 0e49a86bd6
13 changed files with 576 additions and 455 deletions
--- a/include/common.h
+++ b/include/common.h
@ -2,6 +2,7 @@
 #define COMMON_H
 #include <cctype>
 #include <cfloat>
 #include <deque>
 #include <iostream>
 #include <list>
 #include <memory>
@ -10,7 +11,6 @@
 #include <sstream>
 #include <typeindex>
 #include <typeinfo>
 #include <vector>
 #define EXPORT __attribute__ ((visibility ("default")))
@ -53,10 +53,6 @@ public:
 // Virtual api with default functions. Modules types must not override them.
 virtual std::string Dump() const {return "%"+Type()+"%";}
 virtual ObjectBase* Evaluate(bool* err) {*err=false; return 0;}
 virtual ObjectBase* ReplaceVar(const std::string& vname, ObjectBase* ob) {return 0;}
 virtual void UsedFuncs(UsedType& funcs) const {}
 virtual void UsedIdents(UsedType& ids) const {}
 };
@ -237,26 +233,6 @@ public:
 // Non-default overrides
 std::string Dump() const override { return Name()+"="+val->Dump(); }
 ObjectBase* Evaluate(bool* err) override
 {
  auto p=val->Evaluate(err);
  if(*err)
  {
   COUT(ERROR)<<" in pair "<<Dump()<<std::endl;
   return 0;
  }
  if(0==p) return 0;
  val.reset(p);
  return 0;
 }
 ObjectBase* ReplaceVar(const std::string& vname, ObjectBase* ob) override
 {
  auto p=val->ReplaceVar(vname,ob);
  if(0!=p) val.reset(p);
  return 0;
 }
 void UsedFuncs(UsedType& funcs) const override {return val->UsedFuncs(funcs);}
 void UsedIdents(UsedType& ids) const override {return val->UsedIdents(ids);}
 // Own functions
 bool Exist() const {return 0!=val.get();}
@ -280,7 +256,7 @@ public:
 class EXPORT ObjectList: public ObjectBase
 {
 public:
- typedef std::vector<ObjectBase*> ListValues;
+ typedef std::deque<ObjectBase*> ListValues;
 private:
 std::shared_ptr<ListValues> vals;
@ -312,41 +288,6 @@ public:
  if(vals->size()!=0) s.resize(s.length()-2);
  return s+")";
 }
 ObjectBase* Evaluate(bool* err) override
 {
  ObjectBase* p;
  for(auto& i: *vals)
  {
   p=i->Evaluate(err);
   if(*err)
   {
    COUT(ERROR)<<" in list member "<<i->Dump()<<std::endl;
    return 0;
   }
   if(0!=p)
   {
    delete i;
    i=p;
   }
  }
  return 0;
 }
 ObjectBase* ReplaceVar(const std::string& vname, ObjectBase* ob) override
 {
  ObjectBase* p;
  for(auto& i: *vals)
  {
   p=i->ReplaceVar(vname,ob);
   if(0!=p)
   {
    delete i;
    i=p;
   }
  }
  return 0;
 }
 void UsedFuncs(UsedType& funcs) const override {for(auto& i: *vals) i->UsedFuncs(funcs);}
 void UsedIdents(UsedType& ids) const override {for(auto& i: *vals) i->UsedIdents(ids);}
 // Own functions
 const ObjectBase* At(ListValues::size_type i) const {return (*vals)[i];}
@ -373,6 +314,7 @@ public:
 }
 ListValues::size_type Size() const {return vals->size();}
 ObjectList* PushBack(ObjectBase* p) {vals->push_back(p); return this;}
 ObjectList* PushFront(ObjectBase* p) {vals->push_front(p); return this;}
 };
 typedef ObjectBase* (*Func)(const ObjectList*);
--- a/include/deptree.h
+++ b/include/deptree.h
@ -12,7 +12,7 @@ class DepTree
 typedef std::vector<DepTree*> LeafVector;
 typedef std::map<std::string,DepTree*> DepTreeVars;
 typedef std::set<DepTree*> NodeVector;
- typedef std::set<DepTree*> CallStack;
+ typedef std::set<const DepTree*> CallStack;
 enum NodeType {NOTDEF,ROOT,SAVE,PRINT,VAR};
 typedef struct
@ -26,19 +26,17 @@ class DepTree
  pthread_mutex_t prsv_mtx;
  pthread_mutex_t tree_mtx;
 } thread_params;
 NodeVector parents;
 NodeVector childrens;
 NodeType type;
 G_toType::size_type index;
 std::string name;
- mutable bool visited;
+ ExecExpr exe;
- int CreateNodeFromVar(const std::string& var, DepTreeVars& vars, CallStack& callstack);
+ int CreateNodeFromVar(const std::string& v, VarType& vars, DepTreeVars& dvars, CallStack& callstack);
- int CreateNodeFromSP(NodeType list, G_toType::size_type ind, DepTreeVars& vars);
+ int CreateNodeFromSP(NodeType list, VarType& vars, ExecExpr& exp, DepTreeVars& dvars);
 LeafVector FindLeafNodes() const;
 public:
- DepTree():type(DepTree::NOTDEF),visited(false) {}
+ DepTree():type(DepTree::NOTDEF) {}
 DepTree(const DepTree&) = delete;
 ~DepTree()
 {
@ -50,8 +48,10 @@ public:
  }
 }
- int CreateGlobalTree(UsedType& used);
+ int CreateTree(ExecType& save, ExecType& print, VarType& vars);
 int EvaluateTree(unsigned int nthreads);
 void DumpTree() const;
 int CheckFunctions() const;
 friend void* TreeEvaluateM(void* arg);
 friend void* TreeEvaluate (void* arg);
 };
--- a/include/globals.h
+++ b/include/globals.h
@ -1,25 +1,29 @@
 #ifndef GLOBALS_H
 #define GLOBALS_H
-#include "dlfcn.h"
+#include <dlfcn.h>
 #include <map>
 #include <string>
 #include <vector>
 #include "object.h"
 // Variables definitions
 typedef std::map<std::string,ObjectBase*> G_varsType;
 extern G_varsType G_vars;
 // Functions addresses
 typedef std::multimap<std::string,Func> G_funcsType;
 extern G_funcsType G_funcs;
-typedef std::vector<ObjectList*> G_toType;
+// Types for variables and printsave store
 typedef std::map<std::string,ExecExpr> VarType;
 typedef std::vector<ExecExpr> ExecType;
 /*
 // Variables definitions
 extern G_VarType G_Vars;
 // List of objects to save
-extern G_toType G_tosave;
+extern G_ExecType G_ToSave;
 // List of objects to print
-extern G_toType G_toprint;
+extern G_ExecType G_ToPrint;
 */
 // Loaded modules
 typedef std::vector<void*> G_libsType;
--- a/include/init.h
+++ b/include/init.h
@ -10,10 +10,7 @@ struct program_options
 const char* config;
 };
-int BuildDepTree(DepTree* deptree, UsedType& used);
+int ParseConfigFile(const char* config, ExecType& tosave, ExecType& toprint, VarType& vars);
 int CheckFunctions();
 void DumpConfig();
 int ParseConfigFile(const char* config);
 int ParseOptions(int argc, char** argv, struct program_options& options);
 int RegisterBuiltinFunctions();
 debug_level SetDebugLevel(debug_level dl=INTERNALREQUEST);
--- a/include/object.h
+++ b/include/object.h
@ -1,84 +1,111 @@
 #ifndef OBJECT_H
 #define OBJECT_H
 #include <stdio.h>
 #include <errno.h>
 #include <string.h>
 #include <inttypes.h>
 #include <stack>
 #include <stdio.h>
 #include <string.h>
 #include "common.h"
-// Class for storing identifiers
+// Bison location
-class OId: public ObjectBase
+struct grammatic_location
 {
- std::string name;
+ struct incloc
 {
  int line,column;
  std::string filename;
 };
 int first_line;
 int first_column;
 int last_line;
 int last_column;
 std::list<struct incloc> incstack;
 std::string filename;
 };
 class StackElem
 {
 StackElem()=delete;
 StackElem(const StackElem&)=delete;
 public:
- OId(const std::string* t):name(*t) {}
+ enum Type {TYPE_EMPTY,TYPE_BEGINLIST,TYPE_ENDLIST,TYPE_MKPAIR,TYPE_OBJECT,TYPE_VARIABLE,TYPE_FUNCTION};
- ~OId() {}
+ StackElem(Type t, const struct grammatic_location& loc, const char* s=nullptr):type(t),obj(nullptr),location(loc)
 // Pure virtual overrides
 ObjectBase* Copy() const override
 {
-  COUT(WARNING)<<"OId::Copy: this call must never be happens."<<std::endl;
+  if(TYPE_BEGINLIST==t || TYPE_ENDLIST==t) return;
-  return new OId(&name);
+  if( (TYPE_VARIABLE==t || TYPE_FUNCTION==t || TYPE_MKPAIR==t) && nullptr!=s) name=s;
  else type=TYPE_EMPTY;
 }
- bool Print() const override {return false;}
+ StackElem(Type t, const struct grammatic_location& loc, const std::string& s):type(t),obj(nullptr),location(loc)
 std::string Type() const override {return "IDENT";}
 // Non-default overrides
 std::string Dump() const override {return name;};
 ObjectBase* Evaluate(bool* err) override
 {
-  COUT(ERROR)<<"Variable "<<name<<" still not defined."<<std::endl;
+  if(TYPE_VARIABLE==t || TYPE_FUNCTION==t || TYPE_MKPAIR==t) name=s;
-  *err=true;
+  else type=TYPE_EMPTY;
  return 0;
 }
- ObjectBase* ReplaceVar(const std::string& vname, ObjectBase* ob) override
+ StackElem(ObjectBase* o, const struct grammatic_location& loc):type(TYPE_OBJECT),obj(o),location(loc) {}
 ~StackElem() {if(TYPE_OBJECT==type) delete obj;}
 StackElem(StackElem&& s):type(s.type),name(s.name),location(s.location)
 {
-  if(vname==Name()) return ob->Copy();
+  if(TYPE_OBJECT==type)
-  else return 0;
+  {
   // Simple copy of pointer
   obj=s.obj;
   // Prevent destruction of ObjectBase in StackElem destructor
   s.type=TYPE_EMPTY;
  }
 }
 void UsedIdents(UsedType& ids) const override {ids.insert(name);}
 // Own functions
 std::string Name() const {return name;}
 // void SetName(const std::string& s) {name=s;}
 };
-// Class for storing functions
+ const ObjectBase* Object() const {return isObject()?obj:nullptr;}
-class OFunc: public ObjectBase
+ // Detach object
-{
+ ObjectBase* PickObject()
 std::string name;
 ObjectList* args;
 public:
 OFunc(const std::string* t, ObjectBase* p):name(*t)
 {
  if(OBType<ObjectList>(p)) args=dynamic_cast<ObjectList*>(p);
  else args=new ObjectList(p);
 }
 OFunc(const char* t, ObjectBase* p):name(t)
 {
-  if(OBType<ObjectList>(p)) args=dynamic_cast<ObjectList*>(p);
+  if(isObject())
-  else args=new ObjectList(p);
+  {
   type=TYPE_EMPTY;
   return obj;
  }
  else return nullptr;
 }
- ~OFunc() {if(args!=0) delete args;}
+ bool ReplaceByObject(ObjectBase* ob)
 // Pure virtual overrides
 ObjectBase* Copy() const override
 {
-  COUT(WARNING)<<"OFunc::Copy: this call must never be happens."<<std::endl;
+  if(isObject()) {delete ob; return false;}
-  return new OFunc(&name,args->Copy());
+  type=TYPE_OBJECT;
  obj=ob;
  return true;
 }
- bool Print() const override {return false;}
+ std::string Name() const {return (isVar() || isFunc() || isMKPair())?name:std::string();}
- std::string Type() const override {return "FUNC";}
+ bool isObject() const {return (TYPE_OBJECT==type);}
 bool isVar() const {return (TYPE_VARIABLE==type);}
 bool isFunc() const {return (TYPE_FUNCTION==type);}
 bool isBList() const {return (TYPE_BEGINLIST==type);}
 bool isEList() const {return (TYPE_ENDLIST==type);}
 bool isMKPair() const {return (TYPE_MKPAIR==type);}
 const struct grammatic_location& Location() const {return location;}
 Type T() const {return type;}
- // Non-default overrides
+private:
- std::string Dump() const override {return Name()+args->Dump();};
+ Type type;
- ObjectBase* Evaluate(bool* err) override;
+ ObjectBase* obj;
- ObjectBase* ReplaceVar(const std::string& vname, ObjectBase* ob) override {return args->ReplaceVar(vname,ob);}
+ std::string name;
- void UsedFuncs(UsedType& funcs) const override {funcs.insert(name); args->UsedFuncs(funcs);}
+ struct grammatic_location location;
 void UsedIdents(UsedType& ids) const override {args->UsedIdents(ids);}
 // Own functions
 std::string Name() const {return name;}
 // void SetName(std::string s) {name=s;}
 };
 typedef std::list<StackElem> ExecExpr;
 inline StackElem SEBList(const struct grammatic_location& loc) {return StackElem(StackElem::TYPE_BEGINLIST,loc);}
 inline StackElem SEEList(const struct grammatic_location& loc) {return StackElem(StackElem::TYPE_ENDLIST,loc);}
 inline StackElem SEObj(ObjectBase* o, const struct grammatic_location& loc) {return StackElem(o,loc);}
 inline StackElem SEMKPair(const std::string& s, const struct grammatic_location& loc) {return StackElem(StackElem::TYPE_MKPAIR,loc,s);}
 inline StackElem SEVar(const std::string& s, const struct grammatic_location& loc) {return StackElem(StackElem::TYPE_VARIABLE,loc,s);}
 inline StackElem SEFunc(const std::string& s, const struct grammatic_location& loc) {return StackElem(StackElem::TYPE_FUNCTION,loc,s);}
 inline StackElem SEMKPair(const std::string* s, const struct grammatic_location& loc) {return StackElem(StackElem::TYPE_MKPAIR,loc,*s);}
 inline StackElem SEVar(const std::string* s, const struct grammatic_location& loc) {return StackElem(StackElem::TYPE_VARIABLE,loc,*s);}
 inline StackElem SEFunc(const std::string* s, const struct grammatic_location& loc) {return StackElem(StackElem::TYPE_FUNCTION,loc,*s);}
 std::string DumpExprE(const ExecExpr& exp);
 std::string DumpExpr(const ExecExpr& exp);
 UsedType UsedVars(const ExecExpr& exp);
 UsedType UsedFuncs(const ExecExpr& exp);
 ObjectBase* Evaluate(ExecExpr& exp, bool* err);
 //inline void ReplaceVar(ExecExpr& exp, const std::string& var, ObjectBase* ob) {for(auto& se: exp) if(se.isVar() && var==se.Name()) se.ReplaceByObject(ob);}
 void ReplaceVar(ExecExpr& exp, const std::string& var, const ObjectBase* ob);// {for(auto& se: exp) if(se.isVar() && var==se.Name()) se.ReplaceByObject(ob);}
 #endif
--- a/include/parser.h
+++ b/include/parser.h
@ -4,6 +4,7 @@
 #include <stack>
 #include <string>
 #include <stdio.h>
 #include "globals.h"
 // State of lexical parser (filename and position in file)
 struct lexical_state
@ -20,6 +21,8 @@ struct lexical_extra
 struct lexical_state state;
 unsigned int maxinclevel;
 int retcode;
 VarType *vars;
 ExecType *tosave, *toprint;
 std::stack<FILE*> fds;
 std::stack<struct lexical_state> states;
 ~lexical_extra()
@ -35,22 +38,6 @@ struct lexical_extra
 }
 };
 // Bison location
 struct grammatic_location
 {
 struct incloc
 {
  int line,column;
  std::string filename;
 };
 int first_line;
 int first_column;
 int last_line;
 int last_column;
 std::list<struct incloc> incstack;
 std::string filename;
 };
 #if !defined CONFLTYPE && !defined CONFLTYPE_IS_DECLARED
 typedef struct grammatic_location CONFLTYPE;
 #define CONFLTYPE_IS_DECLARED 1
--- a/src/deptree.cpp
+++ b/src/deptree.cpp
@ -1,36 +1,43 @@
 #include <stack>
 #include "deptree.h"
-int DepTree::CreateNodeFromVar(const std::string& var, DepTreeVars& vars, CallStack& callstack)
+// Create variable node
 // v - variable name
 // vars - definitions of variables
 // dvars - variables which are already in tree
 // callstack - path in tree used for detections of loops.
 int DepTree::CreateNodeFromVar(const std::string& v, VarType& vars, DepTree::DepTreeVars& dvars, DepTree::CallStack& callstack)
 {
- COUT(DEBUG)<<"DepTree::CreateNodeFromVar "<<var<<std::endl;
+ COUT(DEBUG)<<"DepTree::CreateNodeFromVar "<<v<<std::endl;
- if(G_vars.count(var)==0)
+ if(vars.count(v)==0)
 {
-  COUT(ERROR)<<"Definition of variable "<<var<<" not found"<<std::endl;
+  COUT(ERROR)<<"Definition of variable "<<v<<" not found"<<std::endl;
  return 1;
 }
- UsedType ids;
+ UsedType ids=UsedVars(vars[v]);
- vars[var]=this;
+ dvars[v]=this;
 G_vars[var]->UsedIdents(ids);
 type=DepTree::VAR;
- name=var;
+ name=v;
 DepTreeVars::const_iterator d;
 int ret;
 exe.splice(exe.begin(),vars[v]); // Move expression into node
 callstack.insert(this);
 for(auto& i:ids)
 {
-  d=vars.find(i);
+  d=dvars.find(i);
-  if(d==vars.end())
+  if(d==dvars.end())
  {
   auto n=*childrens.insert(new DepTree).first;
   n->parents.insert(this);
-   ret=n->CreateNodeFromVar(i,vars,callstack);
+   ret=n->CreateNodeFromVar(i,vars,dvars,callstack);
   if(ret!=0)
   {
-    COUT(ERROR)<<" in definition of variable "<<name<<std::endl;
+    const struct grammatic_location& loc=exe.back().Location();
    COUT(ERROR)<<" in definition of variable "<<name<<" at line "<<loc.first_line<<", position "<<loc.first_column<<std::endl;
    for(const auto& inc: loc.incstack) COUT(ERROR)<<"   included from "<<inc.filename<<" at line "<<inc.line<<", position "<<inc.column<<std::endl;
    return ret;
   }
  }
@ -50,41 +57,45 @@ int DepTree::CreateNodeFromVar(const std::string& var, DepTreeVars& vars, CallSt
 return 0;
 }
-
+// Creating PRINT or SAVE node
-int DepTree::CreateNodeFromSP(DepTree::NodeType list, G_toType::size_type ind, DepTreeVars& vars)
+// list - type of node
 // vars - definitions of variables
 // exp - expression to print or save
 // dvars - variables which are already in tree
 int DepTree::CreateNodeFromSP(DepTree::NodeType list, VarType& vars, ExecExpr& exp, DepTreeVars& dvars)
 {
 if(list!=DepTree::SAVE && list!=DepTree::PRINT)
 {
  COUT(ERROR)<<"Internal error, incorrect NodeType in DepTree::CreateNodeFromSP()."<<std::endl;
  return 2;
 }
 COUT(DEBUG)<<"DepTree::CreateNodeFromSP "<<((list==DepTree::SAVE)?G_tosave:G_toprint)[ind]->Dump()<<std::endl;
- std::set<std::string> ids;
+ UsedType ids=UsedVars(exp);
 CallStack callstack;
 DepTreeVars::const_iterator d;
 int ret;
 type=list;
- index=ind;
+ exe.splice(exe.end(),exp); // Move expression into node
 COUT(DEBUG)<<"DepTree::CreateNodeFromSP "<<DumpExpr(exe)<<std::endl;
- if(type==DepTree::SAVE) G_tosave[index]->UsedIdents(ids);
+ for(const auto& i:ids)
 else if(type==DepTree::PRINT) G_toprint[index]->UsedIdents(ids);
 DepTreeVars::const_iterator d;
 int ret;
 for(auto& i:ids)
 {
-  d=vars.find(i);
+  d=dvars.find(i); // Is variable already in tree?
-  if(d==vars.end())
+  if(dvars.end()==d) // No
  {
   auto n=*childrens.insert(new DepTree).first;
   n->parents.insert(this);
-   ret=n->CreateNodeFromVar(i,vars,callstack);
+   ret=n->CreateNodeFromVar(i,vars,dvars,callstack);
   if(ret!=0)
   {
-    COUT(ERROR)<<" in "<<((type==DepTree::SAVE)?"save":"print")<<" directive "<<((type==DepTree::SAVE)?G_tosave:G_toprint)[index]->Dump()<<"."<<std::endl;
+    const struct grammatic_location& loc=exe.front().Location();
    COUT(ERROR)<<" in "<<((type==DepTree::SAVE)?"save":"print")<<" directive at line "<<loc.first_line<<", position "<<loc.first_column<<std::endl;
    for(const auto& inc: loc.incstack) COUT(ERROR)<<"   included from "<<inc.filename<<" at line "<<inc.line<<", position "<<inc.column<<std::endl;
    return ret;
   }
  }
-  else
+  else // Variable already in tree. Just establish links.
  {
   childrens.insert(d->second);
   d->second->parents.insert(this);
@ -94,8 +105,8 @@ int DepTree::CreateNodeFromSP(DepTree::NodeType list, G_toType::size_type ind, D
 return 0;
 }
-
+// Create dependency tree from expressions to save and print and definitions ov variables
-int DepTree::CreateGlobalTree(UsedType& used)
+int DepTree::CreateTree(ExecType& save, ExecType& print, VarType& vars)
 {
 if(parents.size()!=0)
 {
@ -103,43 +114,42 @@ int DepTree::CreateGlobalTree(UsedType& used)
  return 2;
 }
- DepTreeVars vars;
+ DepTreeVars dvars;
 type=DepTree::ROOT;
- for(G_toType::size_type i=0; i<G_tosave.size(); i++)
+ for(auto& i:save)
 {
  auto n=*childrens.insert(new DepTree).first;
  n->parents.insert(this);
-  auto ret=n->CreateNodeFromSP(DepTree::SAVE,i,vars);
+  auto ret=n->CreateNodeFromSP(DepTree::SAVE,vars,i,dvars);
  if(ret!=0) return ret;
 }
- for(G_toType::size_type i=0; i<G_toprint.size(); i++)
+ for(auto& i:print)
 {
  auto n=*childrens.insert(new DepTree).first;
  n->parents.insert(this);
-  auto ret=n->CreateNodeFromSP(DepTree::PRINT,i,vars);
+  auto ret=n->CreateNodeFromSP(DepTree::PRINT,vars,i,dvars);
  if(ret!=0) return ret;
 }
 for(auto& i: vars) used.insert(i.first);
 return 0;
 }
-
+// Get list of nodes without dependencies
 DepTree::LeafVector DepTree::FindLeafNodes() const
 {
 LeafVector leafs;
 // Visited nodes
 CallStack visited;
 std::stack<NodeVector::const_iterator> path,ends;
 NodeVector::const_iterator it,end;
- // define isvisited as reversion of last visited
+
 bool isvisited=!visited;
 // ascending to root
 const DepTree* root=this;
 while(root->parents.size()!=0) root=*(root->parents.begin());
 const DepTree* curnode=root;
- curnode->visited=isvisited;
+ visited.insert(curnode);
 it=curnode->childrens.begin();
 end=curnode->childrens.end();
@ -147,10 +157,10 @@ DepTree::LeafVector DepTree::FindLeafNodes() const
 {
  if(it!=end)
  {
-   if((*it)->visited==isvisited) {++it; continue;}
+   if(visited.find(*it)!=visited.end()) {++it; continue;}
   path.push(it); ends.push(end);
   curnode=(*it);
-   curnode->visited=isvisited;
+   visited.insert(curnode);
   it=curnode->childrens.begin();
   end=curnode->childrens.end();
   if(it==end) leafs.push_back(const_cast<DepTree*>(curnode));
@ -168,14 +178,102 @@ DepTree::LeafVector DepTree::FindLeafNodes() const
 }
 // Dump tree contents
 void DepTree::DumpTree() const
 {
 // Visited nodes
 CallStack visited;
 std::stack<NodeVector::const_iterator> path,ends;
 NodeVector::const_iterator it,end;
 // ascending to root
 const DepTree* root=this;
 while(root->parents.size()!=0) root=*(root->parents.begin());
 const DepTree* curnode=root;
 visited.insert(curnode);
 it=curnode->childrens.begin();
 end=curnode->childrens.end();
 while(true)
 {
  if(it!=end)
  {
   if(visited.find(*it)!=visited.end()) {++it; continue;}
   path.push(it); ends.push(end);
   curnode=(*it);
   visited.insert(curnode);
   if(SAVE==curnode->type)  COUT(NORMAL)<<"save" <<DumpExpr(curnode->exe)<<";"<<std::endl;
   if(PRINT==curnode->type) COUT(NORMAL)<<"print"<<DumpExpr(curnode->exe)<<";"<<std::endl;
   if(VAR==curnode->type) COUT(NORMAL)<<curnode->name<<"="<<DumpExpr(curnode->exe)<<";"<<std::endl;
   it=curnode->childrens.begin();
   end=curnode->childrens.end();
  }
  else
  {
   if(path.size()==0) break;
   it=path.top(); path.pop();
   end=ends.top(); ends.pop();
   ++it;
  }
 }
 }
 // Check if all functions are defined
 int DepTree::CheckFunctions() const
 {
 // Visited nodes
 CallStack visited;
 std::stack<NodeVector::const_iterator> path,ends;
 NodeVector::const_iterator it,end;
 // ascending to root
 const DepTree* root=this;
 while(root->parents.size()!=0) root=*(root->parents.begin());
 const DepTree* curnode=root;
 visited.insert(curnode);
 it=curnode->childrens.begin();
 end=curnode->childrens.end();
 while(true)
 {
  if(it!=end)
  {
   if(visited.find(*it)!=visited.end()) {++it; continue;}
   path.push(it); ends.push(end);
   curnode=(*it);
   visited.insert(curnode);
   for(const auto& se: curnode->exe) if(StackElem::TYPE_FUNCTION==se.T() && G_funcs.find(se.Name())==G_funcs.end())
   {
    const struct grammatic_location& loc=se.Location();
    COUT(ERROR)<<"Unknown function "<<se.Name()<<" at line "<<loc.first_line<<", position "<<loc.first_column<<std::endl;
    for(const auto& inc: loc.incstack) COUT(ERROR)<<"   included from "<<inc.filename<<" at line "<<inc.line<<", position "<<inc.column<<std::endl;
    return 1;
   }
   it=curnode->childrens.begin();
   end=curnode->childrens.end();
  }
  else
  {
   if(path.size()==0) break;
   it=path.top(); path.pop();
   end=ends.top(); ends.pop();
   ++it;
  }
 }
 return 0;
 }
 // Multi-threaded version
 void* TreeEvaluateM(void* arg)
 {
 struct timespec skip={0,10000000};
 DepTree::thread_params* p=reinterpret_cast<DepTree::thread_params*>(arg);
 DepTree* leaf;
 ObjectBase *ob,*eob;
 ObjectList* ol;
 bool err;
 while(true)
@ -202,20 +300,16 @@ void* TreeEvaluateM(void* arg)
  {
   err=false;
-   // Begin critical section (access to G_toprint or G_tosave)
+   std::unique_ptr<ObjectList> ol(dynamic_cast<ObjectList*>(Evaluate(leaf->exe,&err))); // No check for return value, trust in grammatical parser
   pthread_mutex_lock(&p->prsv_mtx);
   ol=G_tosave[leaf->index];
   // End critical section
   pthread_mutex_unlock(&p->prsv_mtx);
   ol->Evaluate(&err); // For list Evaluate always return 0;
   if(err)
   {
-    COUT(ERROR)<<" in instruction save"<<ol->Dump()<<")"<<std::endl;
+    const struct grammatic_location& loc=leaf->exe.front().Location();
    COUT(ERROR)<<" in instruction save at line "<<loc.first_line<<", position "<<loc.first_column<<std::endl;
    for(const auto& inc: loc.incstack) COUT(ERROR)<<"   included from "<<inc.filename<<" at line "<<inc.line<<", position "<<inc.column<<std::endl;
    p->exitcode=1;
    return 0;
   }
-   if(!Save(ol))
+   if(!Save(ol.get()))
   {
    p->exitcode=1;
    return 0;
@ -232,20 +326,16 @@ void* TreeEvaluateM(void* arg)
  {
   err=false;
-   // Begin critical section (access to G_toprint or G_tosave)
+   std::unique_ptr<ObjectList> ol(dynamic_cast<ObjectList*>(Evaluate(leaf->exe,&err))); // No check for return value, trust in grammatical parser
   pthread_mutex_lock(&p->prsv_mtx);
   ol=G_toprint[leaf->index];
   // End critical section
   pthread_mutex_unlock(&p->prsv_mtx);
   ol->Evaluate(&err); // For list Evaluate always return 0;
   if(err)
   {
-    COUT(ERROR)<<" in instruction print"<<ol->Dump()<<")"<<std::endl;
+    const struct grammatic_location& loc=leaf->exe.front().Location();
    COUT(ERROR)<<" in instruction print at line "<<loc.first_line<<", position "<<loc.first_column<<std::endl;
    for(const auto& inc: loc.incstack) COUT(ERROR)<<"   included from "<<inc.filename<<" at line "<<inc.line<<", position "<<inc.column<<std::endl;
    p->exitcode=1;
    return 0;
   }
-   if(!Print(ol))
+   if(!Print(ol.get()))
   {
    p->exitcode=1;
    return 0;
@ -262,27 +352,20 @@ void* TreeEvaluateM(void* arg)
  if(DepTree::VAR==leaf->type)
  {
-   // Begin critical section (access to G_vars)
+   ObjectBase *eob;
   pthread_mutex_lock(&p->vars_mtx);
   ob=G_vars.at(leaf->name);
   G_vars.erase(leaf->name);
   // End critical section
   pthread_mutex_unlock(&p->vars_mtx);
   // Main working call
   err=false;
-   eob=ob->Evaluate(&err);
+   eob=Evaluate(leaf->exe,&err);
   if(err)
   {
-    COUT(ERROR)<<" in definition of variable "<<leaf->name<<std::endl;
+    const struct grammatic_location& loc=leaf->exe.front().Location();
    COUT(ERROR)<<" in definition of variable "<<leaf->name<<" at line "<<loc.first_line<<", position "<<loc.first_column<<std::endl;
    for(const auto& inc: loc.incstack) COUT(ERROR)<<"   included from "<<inc.filename<<" at line "<<inc.line<<", position "<<inc.column<<std::endl;
    p->exitcode=1;
    return 0;
   }
   // eob is evaluated object
   if(0!=eob) delete ob;
   else eob=ob;
   // Begin critical section (access to tree structure)
   pthread_mutex_lock(&p->tree_mtx);
   for(auto& i:leaf->parents)
@ -290,35 +373,7 @@ void* TreeEvaluateM(void* arg)
    // leaf not children of anyone
    i->childrens.erase(leaf);
    // Replace variable on eob
-    if(DepTree::SAVE==i->type)
+    ReplaceVar(i->exe,leaf->name,eob);
    {
     // Begin critical section (access to G_toprint or G_tosave)
     pthread_mutex_lock(&p->prsv_mtx);
     G_tosave[i->index]->ReplaceVar(leaf->name,eob);    // ReplaceVar always return 0 for ObjectList
     // End critical section
     pthread_mutex_unlock(&p->prsv_mtx);
    }
    if(DepTree::PRINT==i->type)
    {
     // Begin critical section (access to G_toprint or G_tosave)
     pthread_mutex_lock(&p->prsv_mtx);
     G_toprint[i->index]->ReplaceVar(leaf->name,eob);   // ReplaceVar always return 0 for ObjectList
     // End critical section
     pthread_mutex_unlock(&p->prsv_mtx);
    }
    if(DepTree::VAR==i->type)
    {
     // Begin critical section (access to G_vars)
     pthread_mutex_lock(&p->vars_mtx);
     ob=G_vars[i->name]->ReplaceVar(leaf->name,eob);
     if(0!=ob)
     {
      delete G_vars[i->name];
      G_vars[i->name]=ob;
     }
     // End critical section
     pthread_mutex_unlock(&p->vars_mtx);
    }
    // Begin critical section (access to leafs)
    pthread_mutex_lock(&p->leaf_mtx);
@ -344,9 +399,8 @@ void* TreeEvaluate(void* arg)
 {
 DepTree::thread_params* p=reinterpret_cast<DepTree::thread_params*>(arg);
 DepTree* leaf;
 ObjectBase *ob,*eob;
 ObjectList* ol;
 bool err;
 while(0!=p->leafs.size())
 {
  // Select working node
@ -357,16 +411,18 @@ void* TreeEvaluate(void* arg)
  if(DepTree::SAVE==leaf->type)
  {
   err=false;
-   ol=G_tosave[leaf->index];
+
-   ol->Evaluate(&err); // For list Evaluate always return 0;
+   std::unique_ptr<ObjectList> ol(dynamic_cast<ObjectList*>(Evaluate(leaf->exe,&err))); // No check for return value, trust in grammatical parser
   if(err)
   {
-    COUT(ERROR)<<" in instruction save"<<ol->Dump()<<")"<<std::endl;
+    const struct grammatic_location& loc=leaf->exe.front().Location();
    COUT(ERROR)<<" in instruction save at line "<<loc.first_line<<", position "<<loc.first_column<<std::endl;
    for(const auto& inc: loc.incstack) COUT(ERROR)<<"   included from "<<inc.filename<<" at line "<<inc.line<<", position "<<inc.column<<std::endl;
    p->exitcode=1;
    return 0;
   }
   // eob is evaluated object
-   if(!Save(ol))
+   if(!Save(ol.get()))
   {
    p->exitcode=1;
    return 0;
@ -378,15 +434,17 @@ void* TreeEvaluate(void* arg)
  if(DepTree::PRINT==leaf->type)
  {
   err=false;
-   ol=G_toprint[leaf->index];
+
-   ol->Evaluate(&err); // For list Evaluate always return 0;
+   std::unique_ptr<ObjectList> ol(dynamic_cast<ObjectList*>(Evaluate(leaf->exe,&err))); // No check for return value, trust in grammatical parser
   if(err)
   {
-    COUT(ERROR)<<" in instruction print"<<ol->Dump()<<")"<<std::endl;
+    const struct grammatic_location& loc=leaf->exe.front().Location();
    COUT(ERROR)<<" in instruction print at line "<<loc.first_line<<", position "<<loc.first_column<<std::endl;
    for(const auto& inc: loc.incstack) COUT(ERROR)<<"   included from "<<inc.filename<<" at line "<<inc.line<<", position "<<inc.column<<std::endl;
    p->exitcode=1;
    return 0;
   }
-   if(!Print(ol))
+   if(!Print(ol.get()))
   {
    p->exitcode=1;
    return 0;
@ -397,34 +455,26 @@ void* TreeEvaluate(void* arg)
  if(DepTree::VAR==leaf->type)
  {
-   err=false;
+   ObjectBase *eob;
-   ob=G_vars.at(leaf->name);
+
   G_vars.erase(leaf->name);
   // Main working call
-   eob=ob->Evaluate(&err);
+   err=false;
   eob=Evaluate(leaf->exe,&err);
   if(err)
   {
-    COUT(ERROR)<<" in definition of variable "<<leaf->name<<std::endl;
+    const struct grammatic_location& loc=leaf->exe.front().Location();
    COUT(ERROR)<<" in definition of variable "<<leaf->name<<" at line "<<loc.first_line<<", position "<<loc.first_column<<std::endl;
    for(const auto& inc: loc.incstack) COUT(ERROR)<<"   included from "<<inc.filename<<" at line "<<inc.line<<", position "<<inc.column<<std::endl;
    p->exitcode=1;
    return 0;
   }
   // eob is evaluated object
   if(0!=eob) delete ob;
   else eob=ob;
   //G_vars.erase(leaf->name);
   for(auto& i:leaf->parents)
   {
    // leaf not children of anyone
    i->childrens.erase(leaf);
    // Replace variable on eob
-    if(DepTree::SAVE==i->type) G_tosave[i->index]->ReplaceVar(leaf->name,eob);   // ReplaceVar always return 0 for ObjectList
+    ReplaceVar(i->exe,leaf->name,eob);
    if(DepTree::PRINT==i->type) G_toprint[i->index]->ReplaceVar(leaf->name,eob);
    if(DepTree::VAR==i->type)
    {
     ob=G_vars[i->name]->ReplaceVar(leaf->name,eob);
     if(0!=ob) {delete G_vars[i->name]; G_vars[i->name]=ob;}
    }
    // If node have no children, it's a new leaf node
    if(0==i->childrens.size() && DepTree::ROOT!=i->type) p->leafs.push_back(i);
   }
--- a/src/globals.cpp
+++ b/src/globals.cpp
@ -1,30 +1,29 @@
 #include "globals.h"
 // Variables definitions
 G_varsType G_vars;
 // Functions addresses
 G_funcsType G_funcs;
 // Loaded modules
 G_libsType G_libs;
 /*
 // Variables definitions
 G_VarType G_Vars;
 // List of objects to save
-G_toType G_tosave;
+G_ExecType G_ToSave;
 // List of objects to print
-G_toType G_toprint;
+G_ExecType G_ToPrint;
-
+*/
 // Loaded modules
 G_libsType G_libs;
 void ClearGlobals()
 {
 for(auto& it:G_vars) delete it.second;
 for(auto& it:G_tosave) delete it;
 for(auto& it:G_toprint) delete it;
 for(auto& it:G_libs) dlclose(it);
- G_vars.clear();
+ //G_Vars.clear();
- G_tosave.clear();
+ //G_ToPrint.clear();
- G_toprint.clear();
+ //G_ToSave.clear();
 }
--- a/src/init.cpp
+++ b/src/init.cpp
@ -17,59 +17,7 @@ typedef void* yyscan_t;
 #undef YYSTYPE
 #undef YYLTYPE
-int BuildDepTree(DepTree* deptree, UsedType& used) {return deptree->CreateGlobalTree(used);}
+int ParseConfigFile(const char* config, ExecType& tosave, ExecType& toprint, VarType& vars)
 int CheckFunctions()
 {
 UsedType funcs;
 for(auto& i:G_tosave)
 {
  i->UsedFuncs(funcs);
  for(auto& f:funcs) if(G_funcs.find(f)==G_funcs.end())
  {
   COUT(ERROR)<<"Unknown function "<<f<<" in directive save"<<i->Dump()<<std::endl;
   return 1;
  }
  funcs.clear();
 }
 for(auto& i:G_toprint)
 {
  i->UsedFuncs(funcs);
  for(auto& f:funcs) if(G_funcs.find(f)==G_funcs.end())
  {
   COUT(ERROR)<<"Unknown function "<<f<<" in directive print"<<i->Dump()<<std::endl;
   return 1;
  }
  funcs.clear();
 }
 for(auto& i:G_vars)
 {
  i.second->UsedFuncs(funcs);
  for(auto& f:funcs) if(G_funcs.find(f)==G_funcs.end())
  {
   COUT(ERROR)<<"Unknown function "<<f<<" in definition of variable "<<i.first<<std::endl;
   return 1;
  }
  funcs.clear();
 }
 return 0;
 }
 void DumpConfig()
 {
 for(auto& i: G_vars) COUT(NORMAL)<<i.first<<"="+i.second->Dump()<<";"<<std::endl;
 for(auto& i: G_tosave) COUT(NORMAL)<<"save"<<i->Dump()<<";"<<std::endl;
 for(auto& i: G_toprint) COUT(NORMAL)<<"print"<<i->Dump()<<";"<<std::endl;
 }
 int ParseConfigFile(const char* config)
 {
 yyscan_t scanner;
 struct lexical_extra extra;
@ -91,6 +39,9 @@ int ParseConfigFile(const char* config)
 char* cwd=get_current_dir_name();
 extra.state.curdir=cwd;
 free(cwd);
 extra.toprint=&toprint;
 extra.tosave=&tosave;
 extra.vars=&vars;
 extra.ParsePath(config);
 // Search paths begin from working directory
 extra.includedirs=extra.moduledirs="./";
--- a/src/main.cpp
+++ b/src/main.cpp
@ -14,8 +14,8 @@ static void usage(const char* prg)
 int main(int argc, char** argv)
 {
- int ret;
+ int ret=0;
- DepTree* DPTree;
+ DepTree* DPTree=nullptr;
 struct program_options options;
 // Set default options
@ -30,47 +30,43 @@ int main(int argc, char** argv)
 if(options.help) {usage(argv[0]); return 0;}
 SetDebugLevel(options.dl);
 RegisterBuiltinFunctions();
 COUT(INFO)<<"Parse config file "<<options.config<<" ";
 ret=ParseConfigFile(options.config); if(ret!=0) { ClearGlobals(); return 1;}
 COUT(INFO)<<"Ok"<<std::endl;
 if(G_tosave.size()==0 && G_toprint.size()==0)
 {
-  COUT(WARNING)<<"No actions needed, exiting"<<std::endl;
+  VarType vars;
-  ClearGlobals();
+  ExecType ToPrint, ToSave;
  return 0;
 }
- {
+  COUT(INFO)<<"Parse config file "<<options.config<<" ";
-  UsedType used, all;
+  ret=ParseConfigFile(options.config,ToSave,ToPrint,vars); if(ret!=0) { ClearGlobals(); return 1;}
-  for(auto& i:G_vars) all.insert(i.first);
+  COUT(INFO)<<"Ok"<<std::endl;
-  unsigned int tot=G_vars.size();
+  if(ToSave.size()==0 && ToPrint.size()==0)
  {
   COUT(WARNING)<<"No actions needed, exiting"<<std::endl;
   ClearGlobals();
   return 0;
  }
  DPTree=new DepTree;
  COUT(INFO)<<"Building dependency tree ";
-  ret=BuildDepTree(DPTree,used); if(ret!=0) { ClearGlobals(); delete DPTree; return 1;}
+  ret=DPTree->CreateTree(ToSave,ToPrint,vars);
  if(ret!=0) goto end;
  COUT(INFO)<<"Ok"<<std::endl;
  COUT(INFO)<<"Remove unneeded definitions: ";
  for(auto& i:all) if(used.count(i)==0) { delete G_vars[i]; G_vars.erase(i);};
  COUT(INFO)<<(tot-G_vars.size())<<" removed, "<<G_vars.size()<<" remains."<<std::endl;
 }
 RegisterBuiltinFunctions();
 COUT(INFO)<<"Checking functions ";
- ret=CheckFunctions(); if(ret!=0) { ClearGlobals(); delete DPTree; return 1;}
+ ret=DPTree->CheckFunctions(); if(ret!=0) goto end;
 COUT(INFO)<<"Ok"<<std::endl;
- if(options.dump) DumpConfig();
+ if(options.dump) DPTree->DumpTree();
 else
 {
  COUT(INFO)<<"Evaluate tree ";
-  ret=DPTree->EvaluateTree(options.threads); if(ret!=0) { ClearGlobals(); delete DPTree; return 1;}
+  ret=DPTree->EvaluateTree(options.threads); if(ret!=0) goto end;
  COUT(INFO)<<"Ok"<<std::endl;
 }
 end:
 ClearGlobals();
- delete DPTree;
+ if(nullptr!=DPTree) delete DPTree;
- return 0;
+ return (0==ret)?0:1;
 }
--- a/src/object.cpp
+++ b/src/object.cpp
@ -6,6 +6,196 @@ template<> EXPORT std::string ObjectSimple<int64_t>::type="integer";
 template<> EXPORT std::string ObjectSimple<double>::type="real";
 template<> EXPORT std::string ObjectSimple<std::string>::type="string";
 std::string DumpExprE(const ExecExpr& exp)
 {
 std::string ret;
 for(const auto& i: exp)
 {
  ret+="Element: ";
  switch(i.T())
  {
   case(StackElem::TYPE_BEGINLIST): {ret+="("; break;}
   case(StackElem::TYPE_ENDLIST): {ret+=")"; break;}
   case(StackElem::TYPE_MKPAIR): {ret+="MKPAIR: "+i.Name(); break;}
   case(StackElem::TYPE_OBJECT): {ret+="OBJECT: "+i.Object()->Type()+" "+i.Object()->Dump(); break;}
   case(StackElem::TYPE_VARIABLE): {ret+="VARIABLE: "+i.Name(); break;}
   case(StackElem::TYPE_FUNCTION): {ret+="FUNCTION: "+i.Name(); break;}
   default: ret+=" %ERROR% ";
  }
  ret+="\n";
  ret+="Location: "+i.Location().filename+" "+ToString(i.Location().first_line)+" "+ToString(i.Location().first_column)+" "+ToString(i.Location().incstack.size())+"\n\n";
 }
 return ret;
 }
 std::string DumpExpr(const ExecExpr& exp)
 {
 std::list<std::string> stack;
 std::string ret;
 for(const auto& i: exp)
 {
  switch(i.T())
  {
   case(StackElem::TYPE_BEGINLIST): {stack.push_back("("); break;}
   case(StackElem::TYPE_ENDLIST): {stack.push_back(")"); break;}
   case(StackElem::TYPE_MKPAIR):
   {
    if(")"!=stack.back()) {auto s=stack.crbegin(); s++; stack.insert(s.base(),i.Name()+"=");}
    else
    {
     ret.clear();
     uint n=0;
     for(auto s=stack.crbegin(); s!=stack.crend();++s)
     {
      if(ret[0]!=')' && *s!="(" && *s!=")") ret=(*s)+","+ret;
      else ret=(*s)+ret;
      if(")"==*s) n++;
      if("("==*s)
      {
       n--;
       if(0==n)
       {
 	stack.erase((++s).base(),stack.end());
        stack.push_back(i.Name()+"="+ret);
        break;
       }
      }
     }
    }
    break;
   }
   case(StackElem::TYPE_OBJECT): {stack.push_back(i.Object()->Dump()); break;}
   case(StackElem::TYPE_VARIABLE): {stack.push_back(i.Name()); break;}
   case(StackElem::TYPE_FUNCTION):
   {
    ret.clear();
    uint n=0;
    for(auto s=stack.crbegin(); s!=stack.crend();++s)
    {
     if(ret[0]!=')' && *s!="(" && *s!=")") ret=(*s)+","+ret;
     else ret=(*s)+ret;
     if(")"==*s) n++;
     if("("==*s)
     {
      n--;
      if(0==n)
      {
       stack.erase((++s).base(),stack.end());
       stack.push_back(i.Name()+ret);
       break;
      }
     }
    }
    break; // Never reach this line
   }
   default: stack.push_back(" %ERROR% ");
  }
 }
 ret.clear();
 for(const auto& s: stack)
 {
  if('('==ret.back() || '='==ret.back() || ')'==s.front() || ret.empty()) ret+=s;
  else ret+=","+s;
 }
 return ret;
 }
 UsedType UsedVars(const ExecExpr& exp)
 {
 UsedType ret;
 for(const auto& i: exp) if(StackElem::TYPE_VARIABLE==i.T()) ret.insert(i.Name());
 return ret;
 }
 UsedType UsedFuncs(const ExecExpr& exp)
 {
 UsedType ret;
 for(const auto& i: exp) if(StackElem::TYPE_FUNCTION==i.T()) ret.insert(i.Name());
 return ret;
 }
 ObjectBase* Evaluate(ExecExpr& exp, bool* err)
 {
 ExecExpr::iterator cse=exp.begin();
 while(cse!=exp.end())
 {
  switch(cse->T())
  {
   case(StackElem::TYPE_ENDLIST): // Making list
   {
    ObjectList* ol=new ObjectList;
    ExecExpr::iterator bl,el;
    bl=el=cse++;
    bl--;
    // Reverse iteration to fill list. We know that BEGINLIST exists before ENDLIST, because grammatical parser already check it.
    while(StackElem::TYPE_BEGINLIST!=bl->T()) {ol->PushFront(bl->PickObject()); bl--;}
    // Remove all elements from BEGINLIST to ENDLIST, but not ENDLIST itself
    exp.erase(bl,el);
    // Replace ENDLIST by ObjectList
    el->ReplaceByObject(ol);
    // Go to next element
    continue;
   }
   case(StackElem::TYPE_MKPAIR):
   {
    // Previous element must be OBJECT. We don't check this, we trust in grammatical parser.
    ExecExpr::iterator pr=cse;
    pr--;
    cse->ReplaceByObject(new ObjectPair(cse->Name(),pr->PickObject()));
    // Remove previous element
    exp.erase(pr);
    // Go to next element
    cse++; continue;
   }
   case(StackElem::TYPE_FUNCTION):
   {
    // Previous element must be OBJECT with type ObjectList. We don't check this, we trust in grammatical parser.
    ExecExpr::iterator pr=cse;
    pr--;
    const ObjectList* arg=dynamic_cast<const ObjectList*>(pr->Object());
    ObjectBase* res;
    // Functions check already done, we know that our function exists.
    // Sequentally call all functions with given name
    auto bounds=G_funcs.equal_range(cse->Name());
    for(auto f=bounds.first; f!=bounds.second; ++f)
    {
     res=(*(f->second))(arg);
     if(res!=nullptr) break;
    }
    // Remove previous element
    exp.erase(pr);
    // Error handling
    if(nullptr==res)
    {
     const struct grammatic_location& loc=cse->Location();
     *err=true; // Raise error flag
     COUT(ERROR)<<"Can't evaluate function "<<cse->Name()<<" at line "<<loc.first_line<<", position "<<loc.first_column<<std::endl;
     for(const auto& inc: loc.incstack) COUT(ERROR)<<"   included from "<<inc.filename<<" at line "<<inc.line<<", position "<<inc.column<<std::endl;
     return nullptr;
    }
    // Replace function on returned value
    cse->ReplaceByObject(res);
    // Go to next element
    cse++; continue;
   }
   default: {cse++; continue;} // Other cases leads to undefined behavior (VARIABLE or EMPTY) or doesn't require any action, so, skip.
  }
 }
 // After all, our list contains only one object.
 ObjectBase* ret=exp.begin()->PickObject();
 exp.clear();
 return ret;
 }
 void ReplaceVar(ExecExpr& exp, const std::string& var, const ObjectBase* ob)
 {
 for(auto& se: exp)
 if(se.isVar() && var==se.Name())
  se.ReplaceByObject(ob->Copy());
 }
 bool ObjectBase::Save(const char* fname) const
 {
 size_t size,offset=0,wr;
@ -43,31 +233,3 @@ bool ObjectBase::Save(const char* fname) const
 return true;
 }
 ObjectBase* OFunc::Evaluate(bool* err)
 {
 *err=false;
 if(G_funcs.find(name)==G_funcs.end())
 {
  *err=true;
  COUT(ERROR)<<"Function "<<name<< " not found"<<std::endl;
  return 0;
 }
 args->Evaluate(err);
 if(*err)
 {
  COUT(ERROR)<<" in function call "<<Dump()<<std::endl;
  return 0;
 }
 ObjectBase* ret;
 auto p=G_funcs.equal_range(name);
 for(auto f=p.first;f!=p.second;f++)
 {
  ret=(*(f->second))(args);
  if(ret!=0) return ret;
 }
 *err=true;
 COUT(ERROR)<<"Function "<<name<<" can't evaluate expression "<<args->Dump()<<std::endl;
 return 0;
 }
--- a/src/parser/grammatical.y
+++ b/src/parser/grammatical.y
@ -37,6 +37,13 @@ inline void conferror(const YYLTYPE& locp, yyscan_t sc, const std::string& str)
 {
 conferror(&locp,sc,str.c_str());
 }
 #define EADD(to,from) {(to)->splice((to)->end(),*(from)); delete (from);}
 #define EADDV(to,from) {(to).splice((to).end(),*(from)); delete (from);}
 #define I(i) {(i)=new ExecExpr;}
 #define G_Vars (*(confget_extra(scanner)->vars))
 #define G_ToPrint (confget_extra(scanner)->toprint)
 #define G_ToSave (confget_extra(scanner)->tosave)
 %}
 %union
@ -45,7 +52,7 @@ inline void conferror(const YYLTYPE& locp, yyscan_t sc, const std::string& str)
 int64_t i;
 double r;
 std::string* str;
- ObjectBase* ob;
+ ExecExpr* expr;
 }
 %token ASSIGN OBRACE CBRACE ENDL DELIM
@ -68,11 +75,11 @@ inline void conferror(const YYLTYPE& locp, yyscan_t sc, const std::string& str)
 %left '.'
 %precedence OBRACE CBRACE
-%type <ob> longidentifier
+%type <expr> longidentifier
-%type <ob> expression
+%type <expr> expression
-%type <ob> object
+%type <expr> object
-%type <ob> pair
+%type <expr> pair
-%type <ob> list
+%type <expr> list
 %destructor {} REAL INTEGER BOOL
 %destructor {delete $$;} <*>
@ -101,72 +108,72 @@ dirline:
                                        }
 line:
-        NAME ASSIGN object ENDL                 {COUT(DEBUG)<<" NAME ASSIGN object ENDL\n"; if(G_vars.count(*$1)!=0) delete G_vars[*$1]; G_vars[*$1]=$3; delete $1;}
+        NAME ASSIGN object ENDL                 {COUT(DEBUG)<<" NAME ASSIGN object ENDL\n"; EADDV(G_Vars[*$1],$3); delete $1;}
-        | NAME ASSIGN list ENDL                 {COUT(DEBUG)<<" NAME ASSIGN list ENDL\n"; if(G_vars.count(*$1)!=0) delete G_vars[*$1]; G_vars[*$1]=$3; delete $1;}
+        | NAME ASSIGN list ENDL                 {COUT(DEBUG)<<" NAME ASSIGN list ENDL\n"; $3->push_front(SEBList(@3)); $3->push_back(SEEList(@4)); EADDV(G_Vars[*$1],$3); delete $1;}
        | NAME OBRACE list CBRACE ENDL          {COUT(DEBUG)<<" NAME OBRACE list CBRACE ENDL\n";
                                                 tolower($1);
-                                                 ObjectList* ol=dynamic_cast<ObjectList*>($3);
+                                                 $3->push_front(SEBList(@2));
-                                                 if(*$1=="save") G_tosave.push_back(ol);
+                                                 $3->push_back(SEEList(@4));
-                                                 else if(*$1=="print") G_toprint.push_back(ol);
+                                                 if(*$1=="save") {G_ToSave->emplace_back(); EADDV(G_ToSave->back(),$3);}
                                                 else if(*$1=="print") {G_ToPrint->emplace_back(); EADDV(G_ToPrint->back(),$3);}
                                                 else
                                                 {
                                                  conferror(@1,scanner,"unknown statement "+(*$1));
-                                                  delete ol;
+                                                  delete $1; delete $3;
                                                  delete $1;
                                                  YYABORT;
                                                 }
                                                 delete $1;}
        | NAME OBRACE object CBRACE ENDL        {COUT(DEBUG)<<" NAME OBRACE object CBRACE ENDL\n";
                                                 tolower($1);
-                                                 ObjectList* ol=new ObjectList($3);
+                                                 $3->push_front(SEBList(@2));
-                                                 if(*$1=="save") G_tosave.push_back(ol);
+                                                 $3->push_back(SEEList(@4));
-                                                 else if(*$1=="print") G_toprint.push_back(ol);
+                                                 if(*$1=="save") {G_ToSave->emplace_back(); EADDV(G_ToSave->back(),$3);}
                                                 else if(*$1=="print") {G_ToPrint->emplace_back(); EADDV(G_ToPrint->back(),$3);}
                                                 else
                                                 {
                                                  conferror(@1,scanner,"unknown statement "+(*$1));
-                                                  delete ol;
+                                                  delete $1; delete $3;
                                                  delete $1;
                                                  YYABORT;
                                                 }
                                                 delete $1;}
        ;
 list:
-        object object           {COUT(DEBUG)<<" object object\n"; $$=(new ObjectList($1))->PushBack($2);}
+        object object           {COUT(DEBUG)<<" object object\n"; I($$); EADD($$,$1); EADD($$,$2);}
-        | list object           {COUT(DEBUG)<<" list object\n"; dynamic_cast<ObjectList*>($1)->PushBack($2); $$=$1;}
+        | list object           {COUT(DEBUG)<<" list object\n"; I($$); EADD($$,$1); EADD($$,$2);}
        ;
 pair:
-        IDENTIFIER ASSIGN object        {COUT(DEBUG)<<" IDENTIFIER ASSIGN object\n"; $$=new ObjectPair($1,$3); delete $1;}
+        IDENTIFIER ASSIGN object        {COUT(DEBUG)<<" IDENTIFIER ASSIGN object "<<*$1<<"\n"; I($$); EADD($$,$3); $$->push_back(SEMKPair($1,@1)); delete $1;}
        ;
 object:
-        STRING                  {COUT(DEBUG)<<" STRING\n"; $$=new ObjectString($1); delete $1;}
+        STRING                  {COUT(DEBUG)<<" STRING\n"; I($$); $$->push_back(StackElem(new ObjectString($1),@1)); delete $1;}
-        | BOOL                  {COUT(DEBUG)<<" BOOL\n"; $$=new ObjectBool($1);}
+        | BOOL                  {COUT(DEBUG)<<" BOOL\n"; I($$); $$->push_back(StackElem(new ObjectBool($1),@1));}
-        | OBRACE list CBRACE    {COUT(DEBUG)<<" OBRACE list CBRACE\n"; $$=$2;}
+        | OBRACE list CBRACE    {COUT(DEBUG)<<" OBRACE list CBRACE\n"; I($$); $$->push_front(SEBList(@1)); EADD($$,$2); $$->push_back(SEEList(@3));}
-        | expression %prec ASSIGN           {COUT(DEBUG)<<" expression\n"; $$=$1;}
+        | expression %prec ASSIGN           {COUT(DEBUG)<<" expression\n"; I($$); EADD($$,$1);}
-        | pair                  {COUT(DEBUG)<<" pair\n"; $$=$1;}
+        | pair                  {COUT(DEBUG)<<" pair\n"; I($$); EADD($$,$1);}
-        | OBRACE object CBRACE  {COUT(DEBUG)<<" OBRACE object CBRACE\n"; $$=$2;}
+        | OBRACE object CBRACE  {COUT(DEBUG)<<" OBRACE object CBRACE\n"; I($$); EADD($$,$2);}
-        | object DELIM          {COUT(DEBUG)<<" OBJECT DELIM\n"; $$=$1;}
+        | object DELIM          {COUT(DEBUG)<<" OBJECT DELIM\n"; I($$); EADD($$,$1);}
        ;
 longidentifier:
-        IDENTIFIER '.' IDENTIFIER               {COUT(DEBUG)<<" IDENTIFIER DOT IDENTIFIER\n"; $$=new OFunc("GET",(new ObjectList(new OId($1)))->PushBack(new ObjectString($3))); delete $1; delete $3;}
+        IDENTIFIER '.' IDENTIFIER               {COUT(DEBUG)<<" IDENTIFIER DOT IDENTIFIER\n"; I($$); $$->push_front(SEBList(@1)); $$->push_back(SEVar($1,@1)); $$->push_back(SEObj(new ObjectString($3),@3)); $$->push_back(SEEList(@1)); $$->push_back(SEFunc("GET",@2)); delete $1; delete $3;}
-        | longidentifier '.' IDENTIFIER         {COUT(DEBUG)<<" longidentifier '.' IDENTIFIER\n"; $$=new OFunc("GET",(new ObjectList($1))->PushBack(new ObjectString($3))); delete $3;}
+        | longidentifier '.' IDENTIFIER         {COUT(DEBUG)<<" longidentifier '.' IDENTIFIER\n"; I($$); $$->push_front(SEBList(@1)); EADD($$,$1); $$->push_back(SEObj(new ObjectString($3),@3)); $$->push_back(SEEList(@1)); $$->push_back(SEFunc("GET",@2)); delete $3;}
 expression:
-        IDENTIFIER                              {COUT(DEBUG)<<" IDENTIFIER\n"; $$=new OId($1); delete $1;}
+        IDENTIFIER                              {COUT(DEBUG)<<" IDENTIFIER\n"; I($$); $$->push_back(SEVar($1,@1)); delete $1;}
-        | IDENTIFIER OBRACE object CBRACE       {COUT(DEBUG)<<" IDENTIFIER OBRACE object CBRACE\n"; $$=new OFunc($1,$3); delete $1;}
+        | IDENTIFIER OBRACE object CBRACE       {COUT(DEBUG)<<" IDENTIFIER OBRACE object CBRACE\n"; I($$); $$->push_front(SEBList(@2)); EADD($$,$3); $$->push_back(SEEList(@4)); $$->push_back(SEFunc($1,@1)); delete $1;}
-        | IDENTIFIER OBRACE list CBRACE         {COUT(DEBUG)<<" IDENTIFIER OBRACE list CBRACE\n"; $$=new OFunc($1,$3); delete $1;}
+        | IDENTIFIER OBRACE list CBRACE         {COUT(DEBUG)<<" IDENTIFIER OBRACE list CBRACE\n"; I($$); $$->push_front(SEBList(@2)); EADD($$,$3); $$->push_back(SEEList(@4)); $$->push_back(SEFunc($1,@1)); delete $1;}
-        | longidentifier                        {COUT(DEBUG)<<" longidentifier\n"; $$=$1;}
+        | longidentifier                        {COUT(DEBUG)<<" longidentifier\n"; I($$); EADD($$,$1);}
-        | REAL                                  {COUT(DEBUG)<<" REAL\n"; $$=new ObjectReal($1);}
+        | REAL                                  {COUT(DEBUG)<<" REAL\n"; I($$); $$->push_front(StackElem(new ObjectReal($1),@1));}
-        | INTEGER                               {COUT(DEBUG)<<" INTEGER\n"; $$=new ObjectInt($1);}
+        | INTEGER                               {COUT(DEBUG)<<" INTEGER\n"; I($$); $$->push_front(StackElem(new ObjectInt($1),@1));}
-        | expression '-' expression             {COUT(DEBUG)<<" -\n"; $$=new OFunc("SUB",(new ObjectList($1))->PushBack($3));}
+        | expression '-' expression             {COUT(DEBUG)<<" -\n"; I($$); $$->push_front(SEBList(@1)); EADD($$,$1); EADD($$,$3); $$->push_back(SEEList(@3)); $$->push_back(SEFunc("SUB",@2));}
-        | expression '+' expression             {COUT(DEBUG)<<" +\n"; $$=new OFunc("ADD",(new ObjectList($1))->PushBack($3));}
+        | expression '+' expression             {COUT(DEBUG)<<" +\n"; I($$); $$->push_front(SEBList(@1)); EADD($$,$1); EADD($$,$3); $$->push_back(SEEList(@3)); $$->push_back(SEFunc("ADD",@2));}
-        | expression '/' expression             {COUT(DEBUG)<<" /\n"; $$=new OFunc("DIV",(new ObjectList($1))->PushBack($3));}
+        | expression '/' expression             {COUT(DEBUG)<<" /\n"; I($$); $$->push_front(SEBList(@1)); EADD($$,$1); EADD($$,$3); $$->push_back(SEEList(@3)); $$->push_back(SEFunc("DIV",@2));}
-        | expression '*' expression             {COUT(DEBUG)<<" *\n"; $$=new OFunc("MUL",(new ObjectList($1))->PushBack($3));}
+        | expression '*' expression             {COUT(DEBUG)<<" *\n"; I($$); $$->push_front(SEBList(@1)); EADD($$,$1); EADD($$,$3); $$->push_back(SEEList(@3)); $$->push_back(SEFunc("MUL",@2));}
-        | expression '^' expression             {COUT(DEBUG)<<" ^\n"; $$=new OFunc("POW",(new ObjectList($1))->PushBack($3));}
+        | expression '^' expression             {COUT(DEBUG)<<" ^\n"; I($$); $$->push_front(SEBList(@1)); EADD($$,$1); EADD($$,$3); $$->push_back(SEEList(@3)); $$->push_back(SEFunc("POW",@2));}
-        | '-' expression %prec UNARY            {COUT(DEBUG)<<" unary -\n"; $$=new OFunc("NEG",$2);}
+        | '-' expression %prec UNARY            {COUT(DEBUG)<<" unary -\n"; I($$); $$->push_front(SEBList(@1)); EADD($$,$2); $$->push_back(SEEList(@2)); $$->push_back(SEFunc("NEG",@1));}
-        | '+' expression %prec UNARY            {COUT(DEBUG)<<" unary +\n"; $$=new OFunc("POS",$2);}
+        | '+' expression %prec UNARY            {COUT(DEBUG)<<" unary +\n"; I($$); $$->push_front(SEBList(@1)); EADD($$,$2); $$->push_back(SEEList(@2)); $$->push_back(SEFunc("POS",@1));}
-        | OBRACE expression CBRACE              {COUT(DEBUG)<<" OBRACE expression CBRACE\n"; $$=$2;}
+        | OBRACE expression CBRACE              {COUT(DEBUG)<<" OBRACE expression CBRACE\n"; I($$); EADD($$,$2);}
        ;
--- a/src/parser/lexical.l
+++ b/src/parser/lexical.l
@ -16,13 +16,12 @@
 %{
 #include "common.h"
 #include "parser.h"
 #include "object.h"
 // flex use register keyword, but it deprecated in C++11.
 #define register
 // Flex always think what bison types prefixed as YY, so we mast define right macroses
 #define YYSTYPE CONFSTYPE
 #define YYLTYPE CONFLTYPE
 // Some declarations in grammatical.h use ObjectBase
 class ObjectBase;
 #include "grammatical.h"
 // Get rid of warning on unused function
 #define YY_NO_INPUT