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Qualified.cpp

// ---------------------------------------------------------------------------
// - Qualified.cpp                                                           -
// - afnix engine - qualified name 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 "Engsid.hxx"
#include "Vector.hpp"
#include "Strvec.hpp"
#include "Lexical.hpp"
#include "Integer.hpp"
#include "Nameset.hpp"
#include "Runnable.hpp"
#include "Qualified.hpp"
#include "QuarkZone.hpp"
#include "Exception.hpp"

namespace afnix {

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

  // this procedure returns a new qualified object for deserialization
  static Serial* mksob (void) {
    return new Qualified;
  }

  // register this qualified serial id
  static const t_byte SERIAL_ID = Serial::setsid (SERIAL_QUAL_ID, mksob);

  // this procedure update the qualified length and quark array by name
  static void qualified_update (const String& name, long& ql, long** qa) {
    // clean the old quark array
    if (*qa != nilp) delete [] (*qa);
    // extract the name
    Strvec path = Strvec::split (name, ":");
    ql = path.length ();
    if (ql < 2) 
      throw Exception ("syntax-error", "invalid qualified name", name);
    // build the quarks
    *qa = new long[ql];
    for (long i = 0; i < ql; i++) {
      String data = path.get (i);
      if (Lexical::valid (data) == false) {
      delete [] *qa;
      throw Exception ("syntax-error", "invalid qualified name", name);
      }
      (*qa)[i] = data.toquark ();
    }
  }

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

  // create a default qualified

00069   Qualified::Qualified (void) {
    d_lnum   = 0;
    d_length = 0;
    p_quarks = nilp;
  }

  // create a qualified with a name

00077   Qualified::Qualified (const String& name) {
    // save data value
    d_name = name;
    d_lnum = 0;
    // update the qualified
    p_quarks = nilp;
    qualified_update (name, d_length, &p_quarks);
  }

  // create a qualified with a name and a line number

00088   Qualified::Qualified (const String& name, const long lnum) {
    // save data value
    d_name = name;
    d_lnum = lnum;
    // update the qualified
    p_quarks = nilp;
    qualified_update (name, d_length, &p_quarks);
  }

  // copy constructor for this qualified

00099   Qualified::Qualified (const Qualified& that) {
    that.rdlock ();
    // save data value
    d_name = that.d_name;
    d_lnum = that.d_lnum;
    // update the qualified
    p_quarks = nilp;
    qualified_update (d_name, d_length, &p_quarks);    
    that.unlock ();
  }

  // destroy this qualified

00112   Qualified::~Qualified (void) {
    delete [] p_quarks;
  }

  // return the class name

00118   String Qualified::repr (void) const {
    return "Qualified";
  }

  // return a literal representation of this qualified

00124   String Qualified::toliteral (void) const {
    rdlock ();
    String result = d_name;
    unlock ();
    return result;
  }
  
  // return a string representation of this qualified

00133   String Qualified::tostring (void) const {
    rdlock ();
    String result = d_name;
    unlock ();
    return result;
  }

  // return a clone of this qualified

00142   Object* Qualified::clone (void) const {
    return new Qualified (*this);
  }

  // return the qualified serial code

00148   t_byte Qualified::serialid (void) const {
    return SERIAL_QUAL_ID;
  }

  // serialize this qualified

00154   void Qualified::wrstream (Output& os) const {
    rdlock ();
    Integer lnum (d_lnum);
    d_name.wrstream (os);
    lnum.wrstream   (os);
    unlock ();
  }

  // deserialize this qualified

00164   void Qualified::rdstream (Input& is) {
    wrlock ();
    String  sval;
    Integer ival;
    sval.rdstream (is);
    ival.rdstream (is);
    d_name  = sval;
    d_lnum  = ival.tointeger ();
    qualified_update (d_name, d_length, &p_quarks);
    unlock ();
  }

  // this procedure performs a partial evaluation and return the object
  static inline Object* eval_partial (Runnable* robj, Nameset* nset, 
                              const long len, long* quarks) {
    Object* obj = nilp;
    obj = nset->eval (robj, nset, quarks[0]);
    for (long i = 1; i < len; i++) {
      if (obj == nilp) return nilp;
      obj = obj->eval (robj, nset, quarks[i]);
    }
    return obj;
  }

  // the length of the qualified name path

00190   long Qualified::length (void) const {
    rdlock ();
    long result = d_length;
    unlock ();
    return result;
  }

  // return a partial name by index
00198   String Qualified::getname (const long index) const {
    rdlock ();
    if ((index < 0) || (index >= d_length )) {
      unlock ();
      throw Exception ("index-error", "out of bound qualified index");
    }
    try {
      String result = String::qmap (p_quarks[index]);
      unlock ();
      return result;
    } catch (...) {
      unlock ();
      throw;
    }
  }

  // return the qualified line number

00216   long Qualified::getlnum (void) const {
    rdlock ();
    long result = d_lnum;
    unlock ();
    return result;
  }

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

  // the quark zone
  static const long QUARK_ZONE_LENGTH = 4;
  static QuarkZone  zone (QUARK_ZONE_LENGTH);

  // the qualified quarks
  static const long QUARK_MAP     = zone.intern ("map");
  static const long QUARK_LENGTH  = zone.intern ("length");
  static const long QUARK_GETNAME = zone.intern ("get-name");
  static const long QUARK_GETLNUM = zone.intern ("get-lnum");

  // create a qualified in a generic way

00239   Object* Qualified::mknew (Vector* argv) {
    // get the number of arguments
    long argc = (argv == nilp) ? 0 : argv->length ();

    // check for 0 argument
    if (argc == 0) return new Qualified;
    // check for 1 argument
    if (argc == 1) {
      String name = argv->getstring (0);
      return new Qualified (name);
    }
    // illegal arguments
    throw Exception ("argument-error", "too many arguments with qualified");
  }

  // return true if the given quark is defined

00256   bool Qualified::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 a constant object to thsi object

00269   Object* Qualified::cdef (Runnable* robj, Nameset* nset, Object* object) {
    // lock and protect called object as it might be in the runnable
    // which is changed during the eval partial
    wrlock ();
    Object::iref (object);
    try {
      long plen = d_length - 1;
      Object* obj = eval_partial (robj, nset, plen, p_quarks);
      if (obj == nilp) {
      unlock ();
      throw Exception ("eval-error", 
                   "nil object with qualified name", d_name);
      }
      Object* result = obj->cdef (robj, nset, p_quarks[plen], object);
      robj->post (result);
      Object::tref (object);
      unlock ();
      return result;
    } catch (...) {
      Object::tref (object);
      unlock ();
      throw;
    }
  }

  // set an object to this object

00296   Object* Qualified::vdef (Runnable* robj, Nameset* nset, Object* object) {
    // lock and protect called object as it might be in the runnable
    // which is changed during the eval partial
    wrlock ();
    Object::iref (object);
    try {
      long plen = d_length - 1;
      Object* obj = eval_partial (robj, nset, plen, p_quarks);
      if (obj == nilp) {
      unlock ();
      throw Exception ("eval-error", 
                   "nil object with qualified name", d_name);
      }
      Object* result = obj->vdef (robj, nset, p_quarks[plen], object);
      robj->post (result);
      Object::tref (object);
      unlock ();
      return result;
    } catch (...) {
      Object::tref (object);
      unlock ();
      throw;
    }
  }

  // evaluate this object

00323   Object* Qualified::eval (Runnable* robj, Nameset* nset) {
    rdlock ();
    try {
      long plen = d_length - 1;
      Object* obj = eval_partial (robj, nset, plen, p_quarks);
      if (obj == nilp) {
      unlock ();
      throw Exception ("eval-error", 
                   "nil object with qualified name", d_name);
      }
      Object* result = obj->eval (robj, nset, p_quarks[plen]);
      robj->post (result);
      unlock ();
      return result;
    } catch (...) {
      unlock ();
      throw;
    }
  }

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

00345   Object* Qualified::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_LENGTH)  return new Integer (length  ());
      if (quark == QUARK_GETLNUM) return new Integer (getlnum ());
      if (quark == QUARK_MAP) {
      long qrk = p_quarks[d_length - 1];
      Object* result = (nset == nilp) ? nilp : nset->find (qrk);
      robj->post (result);
      return result;
      }
    }
    // check for 1 argument
    if (argc == 1) {
      if (quark == QUARK_GETNAME) {
      long index = argv->getint (0);
      return new String (getname (index));
      }
    }
    // call the literal method
    return Literal::apply (robj, nset, quark, argv);
  }
}

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