// --------------------------------------------------------------------------- // - XmlDecl.cpp - // - afnix:xml module - xml declaration node 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 "XmlDecl.hpp" #include "Boolean.hpp" #include "XmlSystem.hpp" #include "QuarkZone.hpp" #include "Exception.hpp" namespace afnix { // ------------------------------------------------------------------------- // - private section - // ------------------------------------------------------------------------- // the pi node name static const String XML_DECL_NAME = "xml"; // the version attribute static const String XML_VERS_ATTR = "version"; // the encoding attribute static const String XML_EMOD_ATTR = "encoding"; // the standalone attribute static const String XML_STND_ATTR = "standalone"; // this procedure return the pi string value static String to_pi_xval (const String& xvid) { String result = XML_VERS_ATTR; result += '='; result += xvid.isnil () ? XmlSystem::getxvid () : xvid.toliteral (); return result; } // this procedure return the pi string value static String to_pi_xval (const String& xvid, const String emod) { // set the version attribute String result = XML_VERS_ATTR; result += '='; result += xvid.isnil () ? XmlSystem::getxvid () : xvid.toliteral (); // set the encoding attribute result += ' '; result += XML_EMOD_ATTR; result += '='; result += emod.isnil () ? XmlSystem::getemod () : emod.toliteral (); return result; } // this procedure return the pi string value static String to_pi_xval (const String& xvid, const String emod, bool stnd) { // set the version attribute String result = XML_VERS_ATTR; result += '='; result += xvid.isnil () ? XmlSystem::getxvid () : xvid.toliteral (); // set the encoding attribute result += ' '; result += XML_EMOD_ATTR; result += '='; result += emod.isnil () ? XmlSystem::getemod () : emod.toliteral (); // set the standalone flag result += ' '; result += '='; result += stnd ? "\"true\"" : "\"false\""; return result; } // ------------------------------------------------------------------------- // - class section - // ------------------------------------------------------------------------- // create a default xml declaration XmlDecl::XmlDecl (void) : XmlPi (XML_DECL_NAME) { // set the declaration default d_xvid = XmlSystem::getxvid (); d_emod = XmlSystem::getemod (); d_stnd = false; // set the pi value d_xval = to_pi_xval (d_xvid, d_emod); } // create a xml declaration node with a version XmlDecl::XmlDecl (const String& xvid) : XmlPi (XML_DECL_NAME) { // check xml version if (XmlSystem::isxvid (xvid) == false) { throw Exception ("xml-error", "invalid xml version", xvid); } // set the declaration values d_xvid = xvid; d_emod = XmlSystem::getemod (); d_stnd = false; // set the pi value d_xval = to_pi_xval (d_xvid); } // create a xml declaration node with a version XmlDecl::XmlDecl (const String& xvid, const String& emod) : XmlPi (XML_DECL_NAME) { // check xml version if (XmlSystem::isxvid (xvid) == false) { throw Exception ("xml-error", "invalid xml version", xvid); } // set the declaration values d_xvid = xvid; d_emod = emod; d_stnd = false; // set the pi value d_xval = to_pi_xval (d_xvid, d_emod); } // create a xml declaration node with a version XmlDecl::XmlDecl (const String& xvid, const String& emod, const String& stnd) : XmlPi (XML_DECL_NAME) { // check xml version if (XmlSystem::isxvid (xvid) == false) { throw Exception ("xml-error", "invalid xml version", xvid); } // check standalone value if ((stnd != "true") && (stnd != "false")) { throw Exception ("xml-error", "invalid xml standalone value", stnd); } // set the declaration values d_xvid = xvid; d_emod = emod; if (stnd == "true") d_stnd = true; if (stnd == "false") d_stnd = false; // set the pi value d_xval = to_pi_xval (d_xvid, d_emod, d_stnd); } // return the document class name String XmlDecl::repr (void) const { return "XmlDecl"; } // get a clone of this node Object* XmlDecl::clone (void) const { rdlock (); try { // create a new node XmlDecl* result = new XmlDecl; // copy the arguments result->d_xvid = d_xvid; result->d_emod = d_emod; result->d_stnd = d_stnd; // copy the pi arguments result->d_xval = d_xval; // update the node info result->d_eflg = d_eflg; result->d_lnum = d_lnum; result->d_snam = d_snam; // here it is unlock (); return result; } catch (...) { unlock (); throw; } } // get the xml version String XmlDecl::getxvid (void) const { rdlock (); try { String result = d_xvid; unlock (); return result; } catch (...) { unlock (); throw; } } // get the xml encoding mode String XmlDecl::getemod (void) const { rdlock (); try { String result = d_emod; unlock (); return result; } catch (...) { unlock (); throw; } } // get the xml standalone mode bool XmlDecl::getstnd (void) const { rdlock (); try { bool result = d_stnd; unlock (); return result; } catch (...) { unlock (); throw; } } // ------------------------------------------------------------------------- // - object section - // ------------------------------------------------------------------------- // the quark zone static const long QUARK_ZONE_LENGTH = 3; static QuarkZone zone (QUARK_ZONE_LENGTH); // the object supported quarks static const long QUARK_STNDP = zone.intern ("standalone-p"); static const long QUARK_GETXVID = zone.intern ("get-version"); static const long QUARK_GETEMOD = zone.intern ("get-encoding"); // create a new object in a generic way Object* XmlDecl::mknew (Vector* argv) { long argc = (argv == nilp) ? 0 : argv->length (); // check for 0 argument if (argc == 0) return new XmlDecl; // check for 1 argument if (argc == 1) { String xvid = argv->getstring (0); return new XmlDecl (xvid); } // check for 2 arguments if (argc == 2) { String xvid = argv->getstring (0); String emod = argv->getstring (1); return new XmlDecl (xvid, emod); } // check for 3 arguments if (argc == 3) { String xvid = argv->getstring (0); String emod = argv->getstring (1); String stnd = argv->getstring (2); return new XmlDecl (xvid, emod, stnd); } throw Exception ("argument-error", "too many argument with xml declaration constructor"); } // return true if the given quark is defined bool XmlDecl::isquark (const long quark, const bool hflg) const { rdlock (); if (zone.exists (quark) == true) { unlock (); return true; } bool result = hflg ? XmlPi::isquark (quark, hflg) : false; unlock (); return result; } // apply this object with a set of arguments and a quark Object* XmlDecl::apply (Runnable* robj, Nameset* nset, const long quark, Vector* argv) { // get the number of arguments long argc = (argv == nilp) ? 0 : argv->length (); // check for 0 argument if (argc == 0) { if (quark == QUARK_GETXVID) return new String (getxvid ()); if (quark == QUARK_GETEMOD) return new String (getemod ()); if (quark == QUARK_STNDP) return new Boolean (getstnd ()); } // call the xml pi method return XmlPi::apply (robj, nset, quark, argv); } }