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/***************************************************************************
* Copyright (C) 2003, 2004, 2005 by Carsten Niehaus *
* cniehaus@kde.org *
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
* 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. See the *
* GNU General Public License for more details. *
* *
* You should have received a copy of the GNU General Public License *
* along with this program; if not, write to the *
* Free Software Foundation, Inc., *
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. *
***************************************************************************/
#ifndef ELEMENT_H
#define ELEMENT_H
#define ELEMENTSIZE 40
#include <tqcolor.h>
#include <tqvaluelist.h>
class Element;
class QDomDocument;
class QPainter;
class QPoint;
class QFont;
class QRect;
class Spectrum;
class Isotope;
struct coordinate;
typedef TQValueList<Element*> EList;
typedef TQValueList<coordinate> CList;
typedef TQValueList<double> doubleList;
struct coordinate{
int x;
int y;
};
/**
* In this class all information about an element are stored. This means that
* both the chemical date and the data about the position are stored
* in this class.
* @short This class is the represention of a chemical element
* @author Carsten Niehaus
*/
class Element{
public:
Element();
virtual ~Element();
/**
* @returns a pointer to the istope with @p numberOfNucleons
* nucleons
*/
Isotope* isotopeByNucleons( int numberOfNucleons );
enum RADIUSTYPE
{
ATOMIC = 0,
IONIC,
VDW, //van der Waals radius
COVALENT
};
/**
* @return the number of the element
*/
int number() const {
return m_number;
}
/**
* @return if the Element is radioactive
*/
bool radioactive() const{
return m_radioactive;
}
/**
* @return if the Element is artificial
*/
bool artificial() const{
return m_artificial;
}
/**
* @return the information where the name of the Element comes from
*/
TQString nameOrigin() const{
return m_origin;
}
TQString orbits() const{
return m_orbits;
}
void setMass( double value ) { m_mass = value; }
void setEN( double value ) { m_EN = value; }
void setEA( double value ) { m_EA = value; }
void setMeltingpoint( double value ) { m_MP = value; }
void setBoilingpoint( double value ) { m_BP = value; }
/**
* sets the density of the Element
* @param value the density of the Element
*/
void setDensity( double value ) { m_Density = value; }
/**
* set the radius of the radiustype @p type to the value @p value.
* The ionicradius also has a name @p name. This will store the charge of
* the ion (for example, +2 or -3 )
*/
void setRadius( RADIUSTYPE type, double value, const TQString& name = 0 );
void setDate( int date ) { m_date = date; }
void setPeriod( int period ){ m_period = period; }
void setBiologicalMeaning( int value ) { m_biological = value; }
void setNumber( int num ){ m_number = num; }
/**
* set the abundance in crustal rocks [pm]
* @param abundance the abundace in crustal rocks
*/
void setAbundance( int abundance ){ m_abundance = abundance; }
void setScientist( const TQString& value ) { m_scientist = value; }
void setCrysatalstructure( const TQString& value ) { m_crystalstructure = value; }
void setName( const TQString& value ) { m_name = value; }
void setOrigin( const TQString& value ) { m_origin = value; }
void setBlock( const TQString& value ) { m_block = value; }
void setGroup( const TQString& value ) { m_group = value; }
void setFamily( const TQString& value ) { m_family = value; }
void setOrbits( const TQString& value ) { m_orbits = value; }
void setSymbol( const TQString& value ) { m_symbol = value; }
void setOxydation( const TQString& value ) { m_oxstage = value; }
void setAcidicbehaviour( const TQString& value ) { m_acidbeh = value; }
void setIsotopes( const TQString& value ) { m_isotopes = value; }
void setArtificial(){ m_artificial = true; }
void setRadioactive(){ m_radioactive = true; }
void setIonisationList( doubleList l ){ m_ionenergies = l; }
TQValueList<Isotope*> isotopes() const{
return m_isotopeList;
}
TQValueList<double> spectrumList() const{
return m_spectrumList;
}
void setIsotopeList( TQValueList<Isotope*> list ){
m_isotopeList = list;
}
/**
* sets the Spectrum of the Element
* @param spec the Spectrum of the Element
*/
void setSpectrum( Spectrum *spec ){
m_spectrum = spec;
}
/**
* @return if the element has information about spectra
*/
bool hasSpectrum() const{
return m_hasSpectrum;
}
/**
* define if the element has a known Spectrum
* @param value if true, the Element has a Spectrum
*/
void setHasSepctrum(bool value){
m_hasSpectrum = value;
}
/**
* @return the Spectrum of the element
*/
Spectrum* spectrum() const{
return m_spectrum;
}
doubleList ionisationList() const{
return m_ionenergies;
}
/**
* @return the date of discovery of the element
*/
int date() const {
return m_date;
}
/**
* return the correct color of the element at the
* temperature @p temp
*/
TQColor currentColor( const double temp );
/**
* mutator for the element's color
*/
void setElementColor( const TQColor &c ) { m_Color = c; }
/**
* @return the importance of the element for biological
* systems.
* @li 0: blah
* @li 1: blub
* @li 2: blub
* @li 3: blub
* @li 4: blub
* @li 5: blub
* @li 6: blub
*/
int biological() const {
return m_biological;
}
/**
* @return the abundance in crustal rocks in parts per million
*/
int abundance() const {
return m_abundance;
}
/**
* @return the symbol of the element
*/
TQString symbol() const {
return m_symbol;
}
/**
* @return the scientist who discovered the element
*/
TQString scientist() const{
return m_scientist;
}
/**
* @return the crystal structure of the element
*/
TQString crystalstructure() const{
return m_crystalstructure;
}
/**
* @return the name of the element
*/
TQString elname() const {
return m_name;
}
//FIXME I need to add a way to have more than one ionic radius
TQString ioncharge() const{
return m_ionvalue;
}
/**
* @return the chemical block (s, p, d, f) of the element
*/
TQString block() const {
return m_block;
}
/**
* @return the group of the element
*/
TQString group() const {
return m_group;
}
int period() const {
return m_period;
}
TQString family() const {
return m_family;
}
/**
* @return the acidic behavior of the element
*/
TQString acidicbeh() const {
return m_acidbeh;
}
/**
* @return the oxydationstages of the element
*/
TQString oxstage() const {
return m_oxstage;
}
/**
* @return the orbits of the element. The TQString is already
* parsed so that the numbers are superscripts and the first
* block is bold.
* @param canBeEmpty specifies if the string returned can be
* empty instead of a "Unknown structure" one.
*/
TQString parsedOrbits( bool canBeEmpty = false );
/**
* @return the boiling point of the element in Kelvin
*/
double boiling() const {
return m_BP;
}
/**
* @return the melting point of the element in Kelvin
*/
double melting() const {
return m_MP;
}
/**
* @return the electronegativity of the element in the
* Pauling-scale
*/
double electroneg() const {
return m_EN;
}
/**
* @return the electroaffinity of the element
*/
double electroaf() const {
return m_EA;
}
/**
* @return the atomic mass of the element in units
*/
double mass() const {
return m_mass;
}
/**
* @return the density of the element in gramms per mol
*/
double density() const {
return m_Density;
}
/**
* @return the radius of the element in picometers
*/
double radius( RADIUSTYPE type );
/**
* @return the mean mass of the element
*/
double meanmass();
int x, y; //for the RegularPerodicTableView
/**
* adjusts the units for the data. The user can
* for example define if Fahrenheit, Kelvin or
* Degrees Celsius should be used for the temperature.
* This method takes care of that and adjust the
* values.
* @param type the TYPE of the data
* @return the adjusted datastring
*/
const TQString adjustUnits( const int type );
const TQString adjustRadius( RADIUSTYPE rtype );
/**
* adjusts the units for the data. The user can
* for example define if Fahrenheit, Kelvin or
* Degrees Celsius should be used for the temperature.
* This method takes care of that and adjust the
* values. Depending on @p type a unit will be
* added to the adjusted value.
* @param type the TYPE of the data
* @param value the value of the data.
* @return the adjusted datastring
*/
const TQString adjustUnits( const int type, double value );
/**
* types of datas
*/
enum TYPE
{
NOGRADIENT = 0,
ATOMICRADIUS,
COVALENTRADIUS,
VDWRADIUS,
MASS,
DENSITY,
BOILINGPOINT,
MELTINGPOINT,
EN,
EA,
DATE,
IE,
IONICRADIUS
};
TQPoint pos() const;
TQPoint coords() const;
/**
* accessor for the element's color
*/
TQColor elementColor() const {
return m_Color;
}
void setupXY();
private:
/**
* the integer num represents the number of the element
*/
int m_ElementNumber;
Spectrum *m_spectrum;
bool m_hasSpectrum;
TQValueList<Isotope*> m_isotopeList;
TQValueList<double> m_spectrumList;
TQColor m_Color;
int xPos() const;
int yPos() const;
double m_mass,
m_MP,
m_BP,
m_EN,
m_EA,
m_Density,
m_RadiusAR,
m_RadiusCR,
m_RadiusVDW,
m_RadiusIon;
int m_number,
m_date,
m_biological,
m_period,
m_abundance;
TQString m_symbol,
m_name,
m_origin,
m_oxstage,
m_block,
m_group,
m_family,
m_acidbeh,
m_orbits,
m_isotopes,
m_scientist,
m_crystalstructure,
m_ionvalue;
bool m_artificial,
m_radioactive;
doubleList m_ionenergies;
public:
/**
* draw the rectangle with the information
* @param p painter to do the drawing on
* @param value the value to display as text
* @param c the color used to paint the element
*/
virtual void drawGradient( TQPainter* p, const TQString& value, const TQColor& c);
/**
* Draw the Element grayed out. Used in the timeline
* @param p the painter used for the painting
*/
virtual void drawGrayedOut( TQPainter* p );
/**
* draw the rectangle with the information
* @param p painter to do the drawing on
* @param simple if True more information will be shown
* @param isCrystal whether the elements should draw its crystal structure
*/
virtual void drawSelf( TQPainter* p, bool simple = false, bool isCrystal = false );
virtual void drawStateOfMatter( TQPainter* p, double temperature );
};
#endif
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