// ---------------------------------------------------------------------------
// - Lexical.cpp -
// - afnix engine - lexical 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 "Lexical.hpp"
#include "Nameset.hpp"
#include "Integer.hpp"
#include "Runnable.hpp"
#include "QuarkZone.hpp"
#include "Exception.hpp"
namespace afnix {
// -------------------------------------------------------------------------
// - private section -
// -------------------------------------------------------------------------
// the nil quark
static const long QUARK_NIL = String::intern ("nil");
// this procedure returns a new lexical object for deserialization
static Serial* mksob (void) {
return new Lexical;
}
// register this lexical serial id
static const t_byte SERIAL_ID = Serial::setsid (SERIAL_LEXL_ID, mksob);
// -------------------------------------------------------------------------
// - public section -
// -------------------------------------------------------------------------
// return true if the character is a valid lexical one
bool Lexical::valid (const t_quad c) {
if ((c >= 'a') && (c <= 'z')) return true;
if ((c >= 'A') && (c <= 'Z')) return true;
if ((c >= '0') && (c <= '9')) return true;
if (c == '.') return true;
if (c == '+') return true;
if (c == '-') return true;
if (c == '*') return true;
if (c == '/') return true;
if (c == '!') return true;
if (c == '=') return true;
if (c == '.') return true;
if (c == '>') return true;
if (c == '<') return true;
if (c == '?') return true;
return false;
}
// return true if the name is valid lexical one
bool Lexical::valid (const String& name) {
long len = name.length ();
if (len == 0) return false;
for (long i = 0; i < len; i++)
if (Lexical::valid (name[i]) == false) return false;
return true;
}
// -------------------------------------------------------------------------
// - class section -
// -------------------------------------------------------------------------
// create a default lexical
Lexical::Lexical (void) {
d_lnum = 0;
d_quark = 0;
}
// create a lexical with a name
Lexical::Lexical (const String& name) {
if (Lexical::valid (name) == false)
throw Exception ("syntax-error","invalid lexical name", name);
d_name = name;
d_quark = name.toquark ();
d_lnum = 0;
}
// create a lexical with a name and a line number
Lexical::Lexical (const String& name, const long lnum) {
if (Lexical::valid (name) == false)
throw Exception ("syntax-error","invalid lexical name", name);
d_name = name;
d_quark = name.toquark ();
d_lnum = lnum;
}
// copy constructor for this lexical
Lexical::Lexical (const Lexical& that) {
that.rdlock ();
d_name = that.d_name;
d_quark = that.d_quark;
d_lnum = that.d_lnum;
that.unlock ();
}
// return the class name
String Lexical::repr (void) const {
return "Lexical";
}
// return a clone of this lexical
Object* Lexical::clone (void) const {
return new Lexical (*this);
}
// return a literal representation of this lexical
String Lexical::toliteral (void) const {
rdlock ();
String result = d_name;
unlock ();
return result;
}
// return a string representation of this lexical
String Lexical::tostring (void) const {
rdlock ();
String result = d_name;
unlock ();
return result;
}
// return the lexical serial code
t_byte Lexical::serialid (void) const {
return SERIAL_LEXL_ID;
}
// serialize this lexical
void Lexical::wrstream (Output& os) const {
rdlock ();
Integer lnum (d_lnum);
d_name.wrstream (os);
lnum.wrstream (os);
unlock ();
}
// deserialize this lexical
void Lexical::rdstream (Input& is) {
wrlock ();
String sval;
Integer ival;
sval.rdstream (is);
ival.rdstream (is);
d_name = sval;
d_lnum = ival.tointeger ();
d_quark = sval.toquark ();
unlock ();
}
// return the lexical line number
long Lexical::getlnum (void) const {
rdlock ();
long result = d_lnum;
unlock ();
return result;
}
// return the lexical quark
long Lexical::toquark (void) const {
rdlock ();
long result = d_quark;
unlock ();
return result;
}
// return true if the lexical is the nil quark
bool Lexical::isnil (void) const {
rdlock ();
bool result = (d_quark == QUARK_NIL);
unlock ();
return result;
}
// -------------------------------------------------------------------------
// - object section -
// -------------------------------------------------------------------------
// the quark zone
static const long QUARK_ZONE_LENGTH = 1;
static QuarkZone zone (QUARK_ZONE_LENGTH);
// the lexical quarks
static const long QUARK_MAP = zone.intern ("map");
// create a new object in a generic way
Object* Lexical::mknew (Vector* argv) {
// get the number of arguments
long argc = (argv == nilp) ? 0 : argv->length ();
// check for 0 argument
if (argc == 0) return new Lexical;
// check for 1 argument
if (argc == 1) {
String name = argv->getstring (0);
return new Lexical (name);
}
// illegal arguments
throw Exception ("argument-error", "too many arguments with lexical");
}
// return true if the given quark is defined
bool Lexical::isquark (const long quark, const bool hflg) const {
rdlock ();
if (zone.exists (quark) == true) {
unlock ();
return true;
}
bool result = hflg ? Literal::isquark (quark, hflg) : false;
unlock ();
return result;
}
// set this lexical name as a const symbol
Object* Lexical::cdef (Runnable* robj, Nameset* nset, Object* object) {
wrlock ();
try {
Object* result = nset->cdef (robj, nset, d_quark, object);
robj->post (result);
unlock ();
return result;
} catch (...) {
unlock ();
throw;
}
}
// set this lexical name with an object
Object* Lexical::vdef (Runnable* robj, Nameset* nset, Object* object) {
wrlock ();
try {
Object* result = nset->vdef (robj, nset, d_quark, object);
robj->post (result);
unlock ();
return result;
} catch (...) {
unlock ();
throw;
}
}
// evaluate this lexical in the current environment
Object* Lexical::eval (Runnable* robj, Nameset* nset) {
rdlock ();
try {
Object* result = nset->eval (robj,nset,d_quark);
robj->post (result);
unlock ();
return result;
} catch (...) {
unlock ();
throw;
}
}
// apply this lexical with a set of arguments and a quark
Object* Lexical::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_MAP) {
Object* result = (nset == nilp) ? nilp : nset->find (d_quark);
robj->post (result);
return result;
}
}
// call the literal method
return Literal::apply (robj, nset, quark, argv);
}
}
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