Logo Search packages:      
Sourcecode: afnix version File versions

Closure.cpp

// ---------------------------------------------------------------------------
// - Closure.hpp                                                             -
// - afnix engine - closure class implementation                             -
// ---------------------------------------------------------------------------
// - This program is free software;  you can redistribute it  and/or  modify -
// - it provided that this copyright notice is kept intact.                  -
// -                                                                         -
// - This program  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.  In no event shall -
// - the copyright holder be liable for any  direct, indirect, incidental or -
// - special damages arising in any way out of the use of this software.     -
// ---------------------------------------------------------------------------
// - copyright (c) 1999-2007 amaury darsch                                   -
// ---------------------------------------------------------------------------

#include "Cons.hpp"
#include "Stack.hpp"
#include "Vector.hpp"
#include "Return.hpp"
#include "Boolean.hpp"
#include "Lexical.hpp"
#include "Closure.hpp"
#include "Runnable.hpp"
#include "Reserved.hpp"
#include "Argument.hpp"
#include "QuarkZone.hpp"
#include "Exception.hpp"

namespace afnix {

  // -------------------------------------------------------------------------
  // - private section                                                       -
  // -------------------------------------------------------------------------

  // the quark zone
  static const long QUARK_ZONE_LENGTH = 1;
  static QuarkZone  zone (QUARK_ZONE_LENGTH);

  // the object supported quarks
  static const long QUARK_SELF = zone.intern ("self");

  // -------------------------------------------------------------------------
  // - class section                                                         -
  // -------------------------------------------------------------------------

  // the object eval quarks
  static const long QUARK_ARGS  = String::intern ("args");
  static const long QUARK_CONST = String::intern ("const");

  // create a default closure
  
00053   Closure::Closure (void) {
    d_lflag = true;
    d_argc  = 0;
    d_args  = false;
    p_form  = nilp;
    Object::iref (p_lset = new Localset);
    // add the self closure
    addarg (QUARK_SELF, true);
  }

  // create a default closure with a type
  
00065   Closure::Closure (const bool type) {
    d_lflag = type;
    d_argc  = 0;
    d_args  = false;
    p_form  = nilp;
    Object::iref (p_lset = new Localset);
    // add the self closure
    addarg (QUARK_SELF, true);
  }

  // create a new closure 

00077   Closure::Closure (const bool type, Cons* argl, Object* form) {
    // save the arguments
    d_lflag = type;
    d_argc  = 0;
    d_args  = false;
    Object::iref (p_form = form);
    Object::iref (p_lset = new Localset);
    // add the self closure
    addarg (QUARK_SELF, true);
    // add the arguments
    try {
      while (argl != nilp) {
      addarg (argl->getcar ());
      argl = argl->getcdr ();
      }
    } catch (...) {
      Object::dref (p_lset);
      throw;
    }
  }

  // destroy this closure

00100   Closure::~Closure (void) {
    // reset before removal
    if (p_lset != nilp) p_lset->reset ();
    // destroy object
    Object::dref (p_form);
    Object::dref (p_lset);
  }

  // return the class name

00110   String Closure::repr (void) const {
    return "Closure";
  }

  // make this closure a shared object

00116   void Closure::mksho (void) {
    if (p_shared != nilp) return;
    Object::mksho ();
    if (p_lset != nilp) p_lset->mksho ();
    if (p_form != nilp) p_form->mksho ();
  }

  // add an argument by name to this closure

00125   void Closure::addarg (const long quark, const bool flag) {
    wrlock ();
    try {
      // check if the argument already exists
      if (p_lset->exists (quark) == true) {
      throw Exception ("argument-error", "duplicate argument name", 
                   String::qmap (quark));
      }
      // check if the args flag is set
      if (d_args == true) {
      throw Exception ("argument-error", "cannot add arguments after args");
      }
      // check if we set the args flag
      if (quark == QUARK_ARGS) {
      if (d_args == true) {
        
        throw Exception ("argument-error", "cannot add multiple args", 
                     String::qmap (quark));
      }
      d_args = true;
      }
      // create a new argument and bind it
      Argument* arg = new Argument (quark, d_argc++);
      arg->setconst (flag);
      p_lset->bind (quark, arg);
      unlock ();
    } catch (...) {
      unlock ();
      throw;
    }
  }

  // add an argument by object - we can either add a lexical name, a
  // form with a const flag or a string

00160   void Closure::addarg (Object* object) {
    wrlock ();
    try {
      String* sobj = dynamic_cast <String*> (object);
      if (sobj != nilp) {
      addarg (sobj->toquark (), false);
      unlock ();
      return;
      }
      Lexical* lex = dynamic_cast <Lexical*> (object);
      if (lex != nilp) {
      addarg (lex->toquark (), false);
      unlock ();
      return;
      }
      Cons* form = dynamic_cast <Cons*> (object);
      if (form != nilp) {
      if (form->length () != 2) {
        throw Exception ("argument-error", "invalid argument list form");
      }
      Reserved* crsv = dynamic_cast <Reserved*> (form->getcar  ());
      Lexical*  alex = dynamic_cast <Lexical*>  (form->getcadr ());
      if ((crsv == nilp) || (alex == nilp)) {
        throw Exception ("argument-error", "invalid argument list form");
      }
      if (crsv->toquark () != QUARK_CONST) {
        throw Exception ("argument-error", "invalid argument list form");
      }
      addarg (alex->toquark (), true);
      unlock ();
      return;
      }
      throw Exception ("argument-error", "invalid argument list form");
    } catch (...) {
      unlock ();
      throw;
    }
  }

  // add a closed variable to this closure

00201   void Closure::addclv (const long quark, Object* object) {
    wrlock ();
    try {
      // check if the argument already exists
      if (p_lset->exists (quark) == true) {
      throw Exception ("argument-error", "duplicate argument name", 
                   String::qmap (quark));
      }
      p_lset->bind (quark, object);
      unlock ();
    } catch (...) {
      unlock ();
      throw;
    }
  }

  // set this closure form

00219   void Closure::setform (Object* form) {
    wrlock ();
    Object::iref (form);
    Object::dref (p_form);
    p_form = form;
    unlock ();
  }

  // return true if the closure is a lambda expression

00229   bool Closure::islambda (void) const {
    rdlock ();
    bool result = d_lflag;
    unlock ();
    return result;
  }

  // -------------------------------------------------------------------------
  // - object section                                                        -
  // -------------------------------------------------------------------------

  // the object supported quarks
  static const long QUARK_ADDARG  = zone.intern ("add-argument");
  static const long QUARK_GAMMAP  = zone.intern ("gamma-p");
  static const long QUARK_LAMBDAP = zone.intern ("lambda-p");
  static const long QUARK_SETFORM = zone.intern ("set-form");
  static const long QUARK_GETFORM = zone.intern ("get-form");

  // create a ew object in a generic way

00249   Object* Closure::mknew (Vector* argv) {
    // get the number of arguments
    long argc = (argv == nilp) ? 0 : argv->length ();

    // check for 0 argument
    if (argc == 0) return new Closure;
    // check for 1 argument
    if (argc == 1) {
      bool type = argv->getbool (0);
      return new Closure (type);
    }
    // illegal arguments
    throw Exception ("argument-error", "too many arguments with closure");
  }

  // return true if the given quark is defined

00266   bool Closure::isquark (const long quark, const bool hflg) const {
    rdlock ();
    if (zone.exists (quark) == true) {
      unlock ();
      return true;
    }
    bool result = hflg ? Object::isquark (quark, hflg) : false;
    unlock ();
    return result;
  }

  // set this object as a const object

00279   Object* Closure::cdef (Runnable* robj, Nameset* nset, const long quark,
                   Object* object) {
    wrlock ();
    try {
      Object* result = p_lset->cdef (robj, nset, quark, object);
      robj->post (result);
      unlock ();
      return result;
    } catch (...) {
      unlock ();
      throw;
    }
  }

  // set this object closed object

00295   Object* Closure::vdef (Runnable* robj, Nameset* nset, const long quark,
                   Object* object) {
    wrlock ();
    try {
      Object* result = p_lset->vdef (robj, nset, quark, object);
      robj->post (result);
      unlock ();
      return result;
    } catch (...) {
      unlock ();
      throw;
    }
  }

  // evaluate a closed object

00311   Object* Closure::eval (Runnable* robj, Nameset* nset, const long quark) {
    rdlock ();
    // define constant
    try {
      Object* result = nilp;
      if (p_lset->exists (quark) == true) {
      result = p_lset->eval (robj, nset, quark);
      } else {
      result = Object::eval (robj, nset, quark);
      }
      robj->post (result);
      unlock ();
      return result;
    } catch (...) {
      unlock ();
      throw;
    }
  }

  // apply this object with a set of arguments

00332   Object* Closure::apply (Runnable* robj, Nameset* nset, Cons* args) {
    rdlock ();
    // get the stack context
    Stack*   stk = robj->getstk ();
    Object** sp  = stk->getsp ();
    Object** fp  = stk->getfp ();
    try {
      // push this closure on the stack
      stk->push (this);
      // evaluate the arguments on the stack
      long argc = 1;
      long maxa = d_args ? d_argc - 1 : d_argc;
      while (args != nilp) {
      if (argc++ == maxa) break;
      Object* car = args->getcar ();
      stk->push ((car == nilp) ? nilp : car->eval (robj, nset));
      args = args->getcdr ();
      }
      // check for the remaining arguments
      if (args != nilp) {
      // check is the args flag is set
      if (d_args == false) {
        throw Exception ("argument-error", "too many arguments at call");
      }
      Cons* larg = nilp;
      try {
        while (args != nilp) {
          Object* car = args->getcar ();
          Object* arg = (car == nilp) ? nilp : car->eval (robj, nset);
          if (larg == nilp) {
            larg = new Cons (arg);
          } else {
            larg->append (arg);
          }
          args = args->getcdr ();
        }
      } catch (...) {
        delete larg;
        throw;
      }
      stk->push (larg);
      } else {
      if (d_args == true) stk->push ((Object*) nilp);
      }
    } catch (...) {
      stk->unwind (sp, fp);
      unlock ();
      throw;
    }
    // set the parent nameset
    Nameset* lset = new Localset (p_lset);
    if (d_lflag == true) 
      lset->setparent (nset);
    else
      lset->setparent (robj->getgset ());
    // execute this closure - catch any exception so we unlink and destroy
    // the local set. The stack is unwind after the execution. Note how the
    // stack frame is created and restored. If you have a better idea - well
    // let me know.
    Object* result = nilp;
    try {
      stk->setfp (sp);
      result = Object::iref (p_form->eval (robj,lset));
      stk->unwind (sp, fp);
      lset->reset ();
      delete lset;
    } catch (const Return& r) {
      result = Object::iref (r.getobj ());
      stk->unwind (sp, fp);
      lset->reset ();
      delete lset;
    } catch (...) {
      stk->unwind (sp, fp);
      lset->reset ();
      delete lset;
      unlock ();
      throw;
    }
    robj->post (result);
    Object::tref (result);
    unlock ();
    return result;
  }

  // apply this object with a set of arguments and a quarkO

00418   Object* Closure::apply (Runnable* robj, Nameset* nset, const long quark,
                    Vector* argv) {
    // get the number of arguments
    long argc = (argv == nilp) ? 0 : argv->length ();

    // dispatch 0 argument
    if (argc == 0) {
      if (quark == QUARK_GAMMAP)  return new Boolean (!islambda ());
      if (quark == QUARK_LAMBDAP) return new Boolean ( islambda ());
      if (quark == QUARK_GETFORM) {
      rdlock ();
      Object* result = p_form;
      robj->post (result);
      unlock ();
      return result;
      }
    }
    // dispatch 1 argument
    if (argc == 1) {
      if (quark == QUARK_SETFORM) {
      Object* form = argv->get (0);
      setform (form);
      return nilp;
      }
      if (quark == QUARK_ADDARG) {
      Object* arg = argv->get (0);
      addarg (arg);
      return nilp;
      }
    }
    // call the object method
    return Object::apply (robj, nset, quark, argv);
  }
}

Generated by  Doxygen 1.6.0   Back to index